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najafi
mahmood19227 преди 1 година
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променени са 100 файла, в които са добавени 13510 реда и са изтрити 2753 реда
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      CSharp/BasicInputs/CMudProperties.f90
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      CSharp/BasicInputs/CMudPropertiesVariables.f90
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      CSharp/Common/CCommon.f90
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      CSharp/Equipments/MudPathFinding/CManifolds.f90
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      CSharp/OperationScenarios/SoftwareInputsVariables.f90
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      CSharp/OperationScenarios/Unity/CUnityInputs.f90
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      CSharp/OperationScenarios/UnitySignals/CElevatorEnumVariables.f90
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      CSharp/OperationScenarios/UnitySignals/CFlowKellyDisconnectEnumVariables.f90
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      CSharp/OperationScenarios/UnitySignals/CMouseHoleEnumVariables.f90
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      CSharp/OperationScenarios/UnitySignals/COperationConditionEnumVariables.f90
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      CSharp/OperationScenarios/UnitySignals/CTdsBackupClampVariables.f90
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      CSharp/OperationScenarios/UnitySignals/CTdsSwingEnumVariables.f90
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      CSharp/OperationScenarios/UnitySignals/CTongEnumVariables.f90
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      CSharp/OperationScenarios/UnitySignals/UnitySignalsVariables.f90
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      CSharp/Problems/CChokeProblemsVariables.f90
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      CSharp/Problems/CGaugesProblemsVariables.f90
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      CSharp/StudentStation/CStudentStationVariables.f90
  57. +0
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      CSimulationVariables.f90
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      Equipments/BopStack/ANNULAR.f90
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      Equipments/ChokeControl/ChokeStartup.f90
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      Equipments/MudSystem-old/Circulation_Code_Select.f90
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      Equipments/MudSystem-old/FillingWell_By_BellNipple.f90
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      Equipments/MudSystem-old/MudSystem.f90
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      Equipments/MudSystem-old/MudSystemMain.f90
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      Equipments/MudSystem-old/MudSystemStartup.f90
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      Equipments/MudSystem-old/MudSystem_Variables.f90
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      Equipments/MudSystem-old/Plot_Final_Mud_Elements.f90
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      Equipments/MudSystem-old/Pump_and_Trip_In.f90
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      Equipments/MudSystem-old/Trip_Out_andPump.f90
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      Equipments/MudSystem-old/Utube1_and_Trip_In.f90
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      Equipments/MudSystem-old/Utube2_and_Trip_In.f90
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      Equipments/MudSystem/Circulation_Code_Select.f90
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      Equipments/MudSystem/Disconnecting_Pipe.f90
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      Equipments/MudSystem/Elements_Creation.f90
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      Equipments/MudSystem/FillingWell_By_BellNipple.f90
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      Equipments/MudSystem/Kick_Expansion_and_Contraction.f90
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      Equipments/MudSystem/Kick_Influx.f90
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      Equipments/MudSystem/Kick_Migration.f90
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      Equipments/MudSystem/MudSystem.f90
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      Equipments/MudSystem/MudSystemStartup.f90
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      Equipments/MudSystem/Plot_Final_Mud_Elements.f90
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      Equipments/MudSystem/Pump_and_Trip_In.f90
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      Equipments/MudSystem/Trip_Out_andPump.f90
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      Equipments/MudSystem/Utube1_and_Trip_In.f90
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      Equipments/MudSystem/Utube2_and_Trip_In.f90
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      FluidFlow-old/Annulus_Property_Calculator.f90
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      FluidFlow-old/Flow_Startup_VARIABLES.f90
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      FluidFlow-old/Pressure_Display_VARIABLES.f90
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      FluidFlow-old/Pressure_Distribution_VARIABLES.f90

+ 0
- 237
CSharp/BasicInputs/CMudProperties.f90 Целия файл

@@ -1,237 +0,0 @@
module CMudProperties
use CMudPropertiesVariables
use CLog4
implicit none
public
contains
subroutine SetActiveMudType(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveMudType
!DEC$ ATTRIBUTES ALIAS: 'SetActiveMudType' :: SetActiveMudType
implicit none
integer, intent(in) :: v
MudProperties%ActiveMudType = v
end subroutine
subroutine SetActiveRheologyModel(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveRheologyModel
!DEC$ ATTRIBUTES ALIAS: 'SetActiveRheologyModel' :: SetActiveRheologyModel
implicit none
integer, intent(in) :: v
MudProperties%ActiveRheologyModel = v
#ifdef deb
call Log_4( '=====ActiveRheologyModel=', MudProperties%ActiveRheologyModel)
#endif
end subroutine
subroutine SetActiveMudVolume(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveMudVolume
!DEC$ ATTRIBUTES ALIAS: 'SetActiveMudVolume' :: SetActiveMudVolume
implicit none
real*8, intent(in) :: v
MudProperties%ActiveMudVolume = v
!call Log_5('ActiveDensity=', ActiveDensity)
#ifdef deb
print*, 'ActiveMudVolume=', MudProperties%ActiveMudVolume
#endif
MudProperties%ActiveMudVolumeGal = v * 42.0
call OnActiveMudVolumeChange%RunAll(v * 42.0d0)
end subroutine
subroutine SetActiveDensity(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveDensity
!DEC$ ATTRIBUTES ALIAS: 'SetActiveDensity' :: SetActiveDensity
implicit none
real*8, intent(in) :: v
MudProperties%ActiveDensity = v
!call Log_5('ActiveDensity=', ActiveDensity)
#ifdef deb
print*, 'ActiveDensity=', MudProperties%ActiveDensity
#endif
call OnActiveDensityChange%RunAll(v)
end subroutine
subroutine SetActiveThetaThreeHundred(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveThetaThreeHundred
!DEC$ ATTRIBUTES ALIAS: 'SetActiveThetaThreeHundred' :: SetActiveThetaThreeHundred
implicit none
real*8, intent(in) :: v
MudProperties%ActiveThetaThreeHundred = v
end subroutine
subroutine SetActiveThetaSixHundred(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveThetaSixHundred
!DEC$ ATTRIBUTES ALIAS: 'SetActiveThetaSixHundred' :: SetActiveThetaSixHundred
implicit none
real*8, intent(in) :: v
MudProperties%ActiveThetaSixHundred = v
end subroutine
subroutine SetReserveMudType(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetReserveMudType
!DEC$ ATTRIBUTES ALIAS: 'SetReserveMudType' :: SetReserveMudType
implicit none
integer, intent(in) :: v
MudProperties%ReserveMudType = v
end subroutine
subroutine SetReserveMudVolume(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetReserveMudVolume
!DEC$ ATTRIBUTES ALIAS: 'SetReserveMudVolume' :: SetReserveMudVolume
implicit none
real*8, intent(in) :: v
MudProperties%ReserveMudVolume = v
!call Log_5('ReserveMudVolume=', ReserveMudVolume)
#ifdef deb
print*, 'ReserveMudVolume=', MudProperties%ReserveMudVolume
#endif

MudProperties%ReserveMudVolumeGal = v * 42.0
call OnReserveMudVolumeChange%RunAll(v * 42.0d0)
end subroutine
subroutine SetReserveDensity(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetReserveDensity
!DEC$ ATTRIBUTES ALIAS: 'SetReserveDensity' :: SetReserveDensity
implicit none
real*8, intent(in) :: v
MudProperties%ReserveDensity = v
!call Log_5('ReserveDensity=', ReserveDensity)
#ifdef deb
print*, 'ReserveDensity=', MudProperties%ReserveDensity
#endif
call OnReserveDensityChange%RunAll(v)
end subroutine
subroutine SetReserveThetaThreeHundred(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetReserveThetaThreeHundred
!DEC$ ATTRIBUTES ALIAS: 'SetReserveThetaThreeHundred' :: SetReserveThetaThreeHundred
implicit none
real*8, intent(in) :: v
MudProperties%ReserveThetaThreeHundred = v
end subroutine
subroutine SetReserveThetaSixHundred(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetReserveThetaSixHundred
!DEC$ ATTRIBUTES ALIAS: 'SetReserveThetaSixHundred' :: SetReserveThetaSixHundred
implicit none
real*8, intent(in) :: v
MudProperties%ReserveThetaSixHundred = v
end subroutine
subroutine SetActiveTotalTankCapacity(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveTotalTankCapacity
!DEC$ ATTRIBUTES ALIAS: 'SetActiveTotalTankCapacity' :: SetActiveTotalTankCapacity
implicit none
real*8, intent(in) :: v
MudProperties%ActiveTotalTankCapacity = v
MudProperties%ActiveTotalTankCapacityGal = v * 42.0
#ifdef deb
print*, 'ActiveTotalTankCapacity=', MudProperties%ActiveTotalTankCapacity
#endif
end subroutine

subroutine SetActiveSettledContents(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveSettledContents
!DEC$ ATTRIBUTES ALIAS: 'SetActiveSettledContents' :: SetActiveSettledContents
implicit none
real*8, intent(in) :: v
MudProperties%ActiveSettledContents = v
MudProperties%ActiveSettledContentsGal = v * 42.0
#ifdef deb
print*, 'ActiveSettledContents=', MudProperties%ActiveSettledContents
#endif
end subroutine

subroutine SetActiveTotalContents(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveTotalContents
!DEC$ ATTRIBUTES ALIAS: 'SetActiveTotalContents' :: SetActiveTotalContents
implicit none
real*8, intent(in) :: v
MudProperties%ActiveTotalContents = v
MudProperties%ActiveTotalContentsGal = v * 42.0
#ifdef deb
print*, 'ActiveTotalContents=', MudProperties%ActiveTotalContents
#endif
end subroutine

subroutine SetActivePlasticViscosity(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActivePlasticViscosity
!DEC$ ATTRIBUTES ALIAS: 'SetActivePlasticViscosity' :: SetActivePlasticViscosity
implicit none
real*8, intent(in) :: v
MudProperties%ActivePlasticViscosity = v
#ifdef deb
print*, 'ActivePlasticViscosity=', MudProperties%ActivePlasticViscosity
#endif
end subroutine

subroutine SetActiveYieldPoint(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveYieldPoint
!DEC$ ATTRIBUTES ALIAS: 'SetActiveYieldPoint' :: SetActiveYieldPoint
implicit none
real*8, intent(in) :: v
MudProperties%ActiveYieldPoint = v
#ifdef deb
print*, 'ActiveYieldPoint=', MudProperties%ActiveYieldPoint
#endif
end subroutine

subroutine SetActiveAutoDensity(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetActiveAutoDensity
!DEC$ ATTRIBUTES ALIAS: 'SetActiveAutoDensity' :: SetActiveAutoDensity
implicit none
logical, intent(in) :: v
MudProperties%ActiveAutoDensity = v
#ifdef deb
print*, 'ActiveAutoDensity=', MudProperties%ActiveAutoDensity
#endif
end subroutine

subroutine SetReservePlasticViscosity(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetReservePlasticViscosity
!DEC$ ATTRIBUTES ALIAS: 'SetReservePlasticViscosity' :: SetReservePlasticViscosity
implicit none
real*8, intent(in) :: v
MudProperties%ReservePlasticViscosity = v
#ifdef deb
print*, 'ReservePlasticViscosity=', MudProperties%ReservePlasticViscosity
#endif
end subroutine

subroutine SetReserveYieldPoint(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetReserveYieldPoint
!DEC$ ATTRIBUTES ALIAS: 'SetReserveYieldPoint' :: SetReserveYieldPoint
implicit none
real*8, intent(in) :: v
MudProperties%ReserveYieldPoint = v
#ifdef deb
print*, 'ReserveYieldPoint=', MudProperties%ReserveYieldPoint
#endif
end subroutine

subroutine SetInitialTripTankMudVolume(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetInitialTripTankMudVolume
!DEC$ ATTRIBUTES ALIAS: 'SetInitialTripTankMudVolume' :: SetInitialTripTankMudVolume
implicit none
real*8, intent(in) :: v
MudProperties%InitialTripTankMudVolume = v
MudProperties%InitialTripTankMudVolumeGal = v * 42.0
#ifdef deb
print*, 'InitialTripTankMudVolume=', MudProperties%InitialTripTankMudVolume
#endif
end subroutine

subroutine SetPedalFlowMeter(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetPedalFlowMeter
!DEC$ ATTRIBUTES ALIAS: 'SetPedalFlowMeter' :: SetPedalFlowMeter
implicit none
real*8, intent(in) :: v
MudProperties%PedalFlowMeter = v
#ifdef deb
print*, 'PedalFlowMeter=', MudProperties%PedalFlowMeter
#endif
end subroutine
end module CMudProperties

+ 41
- 41
CSharp/BasicInputs/CMudPropertiesVariables.f90 Целия файл

@@ -1,19 +1,19 @@
module CMudPropertiesVariables
use CIActionReference
use CDoubleEventHandlerCollection
!**use CDoubleEventHandlerCollection
implicit none
public
!pointers
procedure (ActionDouble), pointer :: ActiveMudVolumePtr
procedure (ActionDouble), pointer :: ActiveDensityPtr
procedure (ActionDouble), pointer :: ReserveMudVolumePtr
procedure (ActionDouble), pointer :: ReserveDensityPtr
! procedure (ActionDouble), pointer :: ActiveMudVolumePtr
! procedure (ActionDouble), pointer :: ActiveDensityPtr
! procedure (ActionDouble), pointer :: ReserveMudVolumePtr
! procedure (ActionDouble), pointer :: ReserveDensityPtr
type(DoubleEventHandlerCollection) :: OnActiveMudVolumeChange
type(DoubleEventHandlerCollection) :: OnActiveDensityChange
type(DoubleEventHandlerCollection) :: OnReserveMudVolumeChange
type(DoubleEventHandlerCollection) :: OnReserveDensityChange
!**type(DoubleEventHandlerCollection) :: OnActiveMudVolumeChange
!**type(DoubleEventHandlerCollection) :: OnActiveDensityChange
!**type(DoubleEventHandlerCollection) :: OnReserveMudVolumeChange
!**type(DoubleEventHandlerCollection) :: OnReserveDensityChange
!constants
integer, parameter :: WaterBase_MudType = 0
@@ -73,7 +73,7 @@ module CMudPropertiesVariables
if(MudProperties%ActiveMudVolume == v) return
#endif
MudProperties%ActiveMudVolume = v
if(associated(ActiveMudVolumePtr)) call ActiveMudVolumePtr(MudProperties%ActiveMudVolume)
! if(associated(ActiveMudVolumePtr)) call ActiveMudVolumePtr(MudProperties%ActiveMudVolume)
end subroutine
subroutine Set_ActiveDensity_StudentStation(v)
@@ -83,7 +83,7 @@ module CMudPropertiesVariables
if(MudProperties%ActiveDensity == v) return
#endif
MudProperties%ActiveDensity = v
if(associated(ActiveDensityPtr)) call ActiveDensityPtr(MudProperties%ActiveDensity)
! if(associated(ActiveDensityPtr)) call ActiveDensityPtr(MudProperties%ActiveDensity)
end subroutine
subroutine Set_ReserveMudVolume_StudentStation(v)
@@ -93,7 +93,7 @@ module CMudPropertiesVariables
if(MudProperties%ReserveMudVolume == v) return
#endif
MudProperties%ReserveMudVolume = v
if(associated(ReserveMudVolumePtr)) call ReserveMudVolumePtr(MudProperties%ReserveMudVolume)
! if(associated(ReserveMudVolumePtr)) call ReserveMudVolumePtr(MudProperties%ReserveMudVolume)
end subroutine
subroutine Set_ReserveDensity_StudentStation(v)
@@ -103,41 +103,41 @@ module CMudPropertiesVariables
if(MudProperties%ReserveDensity == v) return
#endif
MudProperties%ReserveDensity = v
if(associated(ReserveDensityPtr)) call ReserveDensityPtr(MudProperties%ReserveDensity)
! if(associated(ReserveDensityPtr)) call ReserveDensityPtr(MudProperties%ReserveDensity)
end subroutine
subroutine SubscribeActiveMudVolume(a)
!DEC$ ATTRIBUTES DLLEXPORT :: SubscribeActiveMudVolume
!DEC$ ATTRIBUTES ALIAS: 'SubscribeActiveMudVolume' :: SubscribeActiveMudVolume
implicit none
procedure (ActionDouble) :: a
ActiveMudVolumePtr => a
end subroutine
! subroutine SubscribeActiveMudVolume(a)
! !DEC$ ATTRIBUTES DLLEXPORT :: SubscribeActiveMudVolume
! !DEC$ ATTRIBUTES ALIAS: 'SubscribeActiveMudVolume' :: SubscribeActiveMudVolume
! implicit none
! procedure (ActionDouble) :: a
! ActiveMudVolumePtr => a
! end subroutine
subroutine SubscribeActiveDensity(a)
!DEC$ ATTRIBUTES DLLEXPORT :: SubscribeActiveDensity
!DEC$ ATTRIBUTES ALIAS: 'SubscribeActiveDensity' :: SubscribeActiveDensity
implicit none
procedure (ActionDouble) :: a
ActiveDensityPtr => a
end subroutine
! subroutine SubscribeActiveDensity(a)
! !DEC$ ATTRIBUTES DLLEXPORT :: SubscribeActiveDensity
! !DEC$ ATTRIBUTES ALIAS: 'SubscribeActiveDensity' :: SubscribeActiveDensity
! implicit none
! procedure (ActionDouble) :: a
! ActiveDensityPtr => a
! end subroutine
subroutine SubscribeReserveMudVolume(a)
!DEC$ ATTRIBUTES DLLEXPORT :: SubscribeReserveMudVolume
!DEC$ ATTRIBUTES ALIAS: 'SubscribeReserveMudVolume' :: SubscribeReserveMudVolume
implicit none
procedure (ActionDouble) :: a
ReserveMudVolumePtr => a
end subroutine
! subroutine SubscribeReserveMudVolume(a)
! !DEC$ ATTRIBUTES DLLEXPORT :: SubscribeReserveMudVolume
! !DEC$ ATTRIBUTES ALIAS: 'SubscribeReserveMudVolume' :: SubscribeReserveMudVolume
! implicit none
! procedure (ActionDouble) :: a
! ReserveMudVolumePtr => a
! end subroutine
subroutine SubscribeReserveDensity(a)
!DEC$ ATTRIBUTES DLLEXPORT :: SubscribeReserveDensity
!DEC$ ATTRIBUTES ALIAS: 'SubscribeReserveDensity' :: SubscribeReserveDensity
implicit none
procedure (ActionDouble) :: a
ReserveDensityPtr => a
end subroutine
! subroutine SubscribeReserveDensity(a)
! !DEC$ ATTRIBUTES DLLEXPORT :: SubscribeReserveDensity
! !DEC$ ATTRIBUTES ALIAS: 'SubscribeReserveDensity' :: SubscribeReserveDensity
! implicit none
! procedure (ActionDouble) :: a
! ReserveDensityPtr => a
! end subroutine
end module CMudPropertiesVariables

+ 27
- 30
CSharp/Common/CCommon.f90 Целия файл

@@ -2,50 +2,47 @@ module CCommon
use CCommonVariables
implicit none
public
contains
contains
! Input routines
subroutine SetStandRack(v)
implicit none
integer, intent(in) :: v
if(Common%StandRack == v) return
Common%StandRack = v
call Common%OnStandRackChange%Run(v)
#ifdef deb
print*, 'StandRack=', Common%StandRack
#endif
! call Common%OnStandRackChange%Run(v)
end subroutine

integer function GetStandRack()
implicit none
GetStandRack = Common%StandRack
end function
subroutine SetStandRack_WN(v)
!DEC$ ATTRIBUTES DLLEXPORT :: SetStandRack_WN
!DEC$ ATTRIBUTES ALIAS: 'SetStandRack_WN' :: SetStandRack_WN
implicit none
integer, intent(in) :: v
call SetStandRack(v)
end subroutine
! subroutine SetStandRack_WN(v)
! !DEC$ ATTRIBUTES DLLEXPORT :: SetStandRack_WN
! !DEC$ ATTRIBUTES ALIAS: 'SetStandRack_WN' :: SetStandRack_WN
! implicit none
! integer, intent(in) :: v
! call SetStandRack(v)
! end subroutine
! Output routines
logical function GetDrillWatchOperationMode()
!DEC$ ATTRIBUTES DLLEXPORT :: GetDrillWatchOperationMode
!DEC$ ATTRIBUTES ALIAS: 'GetDrillWatchOperationMode' :: GetDrillWatchOperationMode
implicit none
GetDrillWatchOperationMode = Common%DrillWatchOperationMode
end function
! ! Output routines
! logical function GetDrillWatchOperationMode()
! !DEC$ ATTRIBUTES DLLEXPORT :: GetDrillWatchOperationMode
! !DEC$ ATTRIBUTES ALIAS: 'GetDrillWatchOperationMode' :: GetDrillWatchOperationMode
! implicit none
! GetDrillWatchOperationMode = Common%DrillWatchOperationMode
! end function
integer function GetStandRack()
implicit none
GetStandRack = Common%StandRack
end function
integer function GetStandRack_WN()
!DEC$ ATTRIBUTES DLLEXPORT :: GetStandRack_WN
!DEC$ ATTRIBUTES ALIAS: 'GetStandRack_WN' :: GetStandRack_WN
implicit none
GetStandRack_WN = Common%StandRack
end function
! integer function GetStandRack_WN()
! !DEC$ ATTRIBUTES DLLEXPORT :: GetStandRack_WN
! !DEC$ ATTRIBUTES ALIAS: 'GetStandRack_WN' :: GetStandRack_WN
! implicit none
! GetStandRack_WN = Common%StandRack
! end function


+ 3
- 2
CSharp/Common/CCommonVariables.f90 Целия файл

@@ -1,15 +1,16 @@
module CCommonVariables
use CIntegerEventHandler
!**use CIntegerEventHandler
implicit none
public
type :: CommonType
! Input vars
integer :: StandRack
type(IntegerEventHandler) :: OnStandRackChange
! type(IntegerEventHandler) :: OnStandRackChange
! Output vars
logical :: DrillWatchOperationMode
end type
type(CommonType):: Common
contains

end module CCommonVariables

+ 0
- 44
CSharp/Common/EventHandlers/CBoolEventHandler.f90 Целия файл

@@ -1,44 +0,0 @@
module CBoolEventHandler
use CIActionReference
implicit none
public
type :: BoolEventHandler
procedure(ActionBool), pointer, nopass :: Delegate => null()
contains
procedure :: AssignTo => AssignTo
procedure :: MakeNull => MakeNull
procedure :: IsNull => IsNull
procedure :: Run => Run
end type BoolEventHandler
contains
subroutine AssignTo(this, proc)
implicit none
class(BoolEventHandler), intent(inout) :: this
procedure (ActionBool), pointer, intent(in) :: proc
this%Delegate => proc
end subroutine
subroutine MakeNull(this)
implicit none
class(BoolEventHandler), intent(inout) :: this
this%Delegate => null()
end subroutine
logical function IsNull(this)
implicit none
class(BoolEventHandler), intent(in) :: this
IsNull = .not.associated(this%Delegate)
end function
subroutine Run(this, arg)
implicit none
class(BoolEventHandler), intent(inout) :: this
logical, intent(in) :: arg
!if(.not.this%IsNull())
call this%Delegate(arg)
end subroutine
end module CBoolEventHandler

+ 0
- 103
CSharp/Common/EventHandlers/CBoolEventHandlerCollection.f90 Целия файл

@@ -1,103 +0,0 @@
module CBoolEventHandlerCollection
use CBoolEventHandler
implicit none
public
type, public :: BoolEventHandlerCollection
type(BoolEventHandler), allocatable :: Delegates(:)
contains
procedure :: Length => Length
procedure :: Add => Add
procedure :: Remove => Remove
procedure :: Empty => Empty
procedure :: IsEmpty => IsEmpty
procedure :: RunAll => RunAll
end type BoolEventHandlerCollection
contains
integer function Length(this)
implicit none
class(BoolEventHandlerCollection), intent(in) :: this
if(allocated(this%Delegates)) then
Length = size(this%Delegates)
return
end if
Length = 0
end function
subroutine Add(this, proc)
implicit none
class(BoolEventHandlerCollection), intent(inout) :: this
type(BoolEventHandler), allocatable :: tempArr(:)
procedure (ActionBool), pointer, intent(in) :: proc
integer :: i, isize
if(allocated(this%Delegates)) then
isize = size(this%Delegates)
allocate(tempArr(isize+1))
do i=1,isize
tempArr(i) = this%Delegates(i)
end do
call tempArr(isize+1)%MakeNull()
call tempArr(isize+1)%AssignTo(proc)
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
else
allocate(this%Delegates(1))
call this%Delegates(1)%MakeNull()
call this%Delegates(1)%AssignTo(proc)
end if
end subroutine
subroutine Remove(this, index)
implicit none
class(BoolEventHandlerCollection), intent(inout) :: this
integer, intent(in) :: index
type(BoolEventHandler), allocatable :: tempArr(:)
integer :: i
logical :: found
if(index <= 0 .or. index > size(this%Delegates)) return
if(.not.allocated(this%Delegates))return
allocate(tempArr(size(this%Delegates)-1))
found = .false.
do i=1, size(this%Delegates)
if(i==index) then
found = .true.
cycle
end if
if(found) then
tempArr(i-1) = this%Delegates(i)
else
tempArr(i) = this%Delegates(i)
endif
end do
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
end subroutine
subroutine Empty(this)
implicit none
class(BoolEventHandlerCollection), intent(inout) :: this
if(allocated(this%Delegates)) deallocate(this%Delegates)
end subroutine
logical function IsEmpty(this)
implicit none
class(BoolEventHandlerCollection), intent(in) :: this
IsEmpty = .not.allocated(this%Delegates)
end function
subroutine RunAll(this, arg)
implicit none
class(BoolEventHandlerCollection), intent(inout) :: this
logical, intent(in) :: arg
integer :: i
do i=1, size(this%Delegates)
call this%Delegates(i)%Run(arg)
end do
end subroutine
end module CBoolEventHandlerCollection

+ 0
- 43
CSharp/Common/EventHandlers/CDoubleEventHandler.f90 Целия файл

@@ -1,43 +0,0 @@
module CDoubleEventHandler
use CIActionReference
implicit none
public
type :: DoubleEventHandler
procedure(ActionDouble), pointer, nopass :: Delegate => null()
contains
procedure :: AssignTo => AssignTo
procedure :: MakeNull => MakeNull
procedure :: IsNull => IsNull
procedure :: Run => Run
end type DoubleEventHandler
contains
subroutine AssignTo(this, proc)
implicit none
class(DoubleEventHandler), intent(inout) :: this
procedure (ActionDouble), pointer, intent(in) :: proc
this%Delegate => proc
end subroutine
subroutine MakeNull(this)
implicit none
class(DoubleEventHandler), intent(inout) :: this
this%Delegate => null()
end subroutine
logical function IsNull(this)
implicit none
class(DoubleEventHandler), intent(in) :: this
IsNull = .not.associated(this%Delegate)
end function
subroutine Run(this, arg)
implicit none
class(DoubleEventHandler), intent(inout) :: this
real(8), intent(in) :: arg
if(.not.this%IsNull()) call this%Delegate(arg)
end subroutine
end module CDoubleEventHandler

+ 0
- 103
CSharp/Common/EventHandlers/CDoubleEventHandlerCollection.f90 Целия файл

@@ -1,103 +0,0 @@
module CDoubleEventHandlerCollection
use CDoubleEventHandler
implicit none
public
type, public :: DoubleEventHandlerCollection
type(DoubleEventHandler), allocatable :: Delegates(:)
contains
procedure :: Length => Length
procedure :: Add => Add
procedure :: Remove => Remove
procedure :: Empty => Empty
procedure :: IsEmpty => IsEmpty
procedure :: RunAll => RunAll
end type DoubleEventHandlerCollection
contains
integer function Length(this)
implicit none
class(DoubleEventHandlerCollection), intent(in) :: this
if(allocated(this%Delegates)) then
Length = size(this%Delegates)
return
end if
Length = 0
end function
subroutine Add(this, proc)
implicit none
class(DoubleEventHandlerCollection), intent(inout) :: this
type(DoubleEventHandler), allocatable :: tempArr(:)
procedure (ActionDouble), pointer, intent(in) :: proc
integer :: i, isize
if(allocated(this%Delegates)) then
isize = size(this%Delegates)
allocate(tempArr(isize+1))
do i=1,isize
tempArr(i) = this%Delegates(i)
end do
call tempArr(isize+1)%MakeNull()
call tempArr(isize+1)%AssignTo(proc)
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
else
allocate(this%Delegates(1))
call this%Delegates(1)%MakeNull()
call this%Delegates(1)%AssignTo(proc)
end if
end subroutine
subroutine Remove(this, index)
implicit none
class(DoubleEventHandlerCollection), intent(inout) :: this
integer, intent(in) :: index
type(DoubleEventHandler), allocatable :: tempArr(:)
integer :: i
logical :: found
if(index <= 0 .or. index > size(this%Delegates)) return
if(.not.allocated(this%Delegates))return
allocate(tempArr(size(this%Delegates)-1))
found = .false.
do i=1, size(this%Delegates)
if(i==index) then
found = .true.
cycle
end if
if(found) then
tempArr(i-1) = this%Delegates(i)
else
tempArr(i) = this%Delegates(i)
endif
end do
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
end subroutine
subroutine Empty(this)
implicit none
class(DoubleEventHandlerCollection), intent(inout) :: this
if(allocated(this%Delegates)) deallocate(this%Delegates)
end subroutine
logical function IsEmpty(this)
implicit none
class(DoubleEventHandlerCollection), intent(in) :: this
IsEmpty = .not.allocated(this%Delegates)
end function
subroutine RunAll(this, arg)
implicit none
class(DoubleEventHandlerCollection), intent(inout) :: this
real(8), intent(in) :: arg
integer :: i
do i=1, size(this%Delegates)
call this%Delegates(i)%Run(arg)
end do
end subroutine
end module CDoubleEventHandlerCollection

+ 0
- 44
CSharp/Common/EventHandlers/CIntegerArrayEventHandler.f90 Целия файл

@@ -1,44 +0,0 @@
module CIntegerArrayEventHandler
use CIActionReference
implicit none
public
type :: IntegerArrayEventHandler
procedure(ActionIntegerArray), pointer, nopass :: Delegate => null()
contains
procedure :: AssignTo => AssignTo
procedure :: MakeNull => MakeNull
procedure :: IsNull => IsNull
procedure :: Run => Run
end type IntegerArrayEventHandler
contains
subroutine AssignTo(this, proc)
implicit none
class(IntegerArrayEventHandler), intent(inout) :: this
procedure (ActionIntegerArray), pointer, intent(in) :: proc
this%Delegate => proc
end subroutine
subroutine MakeNull(this)
implicit none
class(IntegerArrayEventHandler), intent(inout) :: this
this%Delegate => null()
end subroutine
logical function IsNull(this)
implicit none
class(IntegerArrayEventHandler), intent(in) :: this
IsNull = .not.associated(this%Delegate)
end function
subroutine Run(this, arg)
implicit none
class(IntegerArrayEventHandler), intent(inout) :: this
integer, allocatable, intent (in) :: arg(:)
!if(.not.this%IsNull())
call this%Delegate(arg)
end subroutine
end module CIntegerArrayEventHandler

+ 0
- 103
CSharp/Common/EventHandlers/CIntegerArrayEventHandlerCollection.f90 Целия файл

@@ -1,103 +0,0 @@
module CIntegerArrayEventHandlerCollection
use CIntegerArrayEventHandler
implicit none
public
type, public :: IntegerArrayEventHandlerCollection
type(IntegerArrayEventHandler), allocatable :: Delegates(:)
contains
procedure :: Length => Length
procedure :: Add => Add
procedure :: Remove => Remove
procedure :: Empty => Empty
procedure :: IsEmpty => IsEmpty
procedure :: RunAll => RunAll_
end type IntegerArrayEventHandlerCollection
contains
integer function Length(this)
implicit none
class(IntegerArrayEventHandlerCollection), intent(in) :: this
if(allocated(this%Delegates)) then
Length = size(this%Delegates)
return
end if
Length = 0
end function
subroutine Add(this, proc)
implicit none
class(IntegerArrayEventHandlerCollection), intent(inout) :: this
type(IntegerArrayEventHandler), allocatable :: tempArr(:)
procedure (ActionIntegerArray), pointer, intent(in) :: proc
integer :: i, isize
if(allocated(this%Delegates)) then
isize = size(this%Delegates)
allocate(tempArr(isize+1))
do i=1,isize
tempArr(i) = this%Delegates(i)
end do
call tempArr(isize+1)%MakeNull()
call tempArr(isize+1)%AssignTo(proc)
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
else
allocate(this%Delegates(1))
call this%Delegates(1)%MakeNull()
call this%Delegates(1)%AssignTo(proc)
end if
end subroutine
subroutine Remove(this, index)
implicit none
class(IntegerArrayEventHandlerCollection), intent(inout) :: this
integer, intent(in) :: index
type(IntegerArrayEventHandler), allocatable :: tempArr(:)
integer :: i
logical :: found
if(index <= 0 .or. index > size(this%Delegates)) return
if(.not.allocated(this%Delegates))return
allocate(tempArr(size(this%Delegates)-1))
found = .false.
do i=1, size(this%Delegates)
if(i==index) then
found = .true.
cycle
end if
if(found) then
tempArr(i-1) = this%Delegates(i)
else
tempArr(i) = this%Delegates(i)
endif
end do
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
end subroutine
subroutine Empty(this)
implicit none
class(IntegerArrayEventHandlerCollection), intent(inout) :: this
if(allocated(this%Delegates)) deallocate(this%Delegates)
end subroutine
logical function IsEmpty(this)
implicit none
class(IntegerArrayEventHandlerCollection), intent(in) :: this
IsEmpty = .not.allocated(this%Delegates)
end function
subroutine RunAll_(this, arg)
implicit none
class(IntegerArrayEventHandlerCollection), intent(inout) :: this
integer, allocatable, intent (in) :: arg(:)
integer :: i
do i=1, size(this%Delegates)
call this%Delegates(i)%Run(arg)
end do
end subroutine
end module CIntegerArrayEventHandlerCollection

+ 0
- 44
CSharp/Common/EventHandlers/CIntegerEventHandler.f90 Целия файл

@@ -1,44 +0,0 @@
module CIntegerEventHandler
use CIActionReference
implicit none
public
type :: IntegerEventHandler
procedure(ActionInteger), pointer, nopass :: Delegate => null()
contains
procedure :: AssignTo => AssignTo
procedure :: MakeNull => MakeNull
procedure :: IsNull => IsNull
procedure :: Run => Run
end type IntegerEventHandler
contains
subroutine AssignTo(this, proc)
implicit none
class(IntegerEventHandler), intent(inout) :: this
procedure (ActionInteger), pointer, intent(in) :: proc
this%Delegate => proc
end subroutine
subroutine MakeNull(this)
implicit none
class(IntegerEventHandler), intent(inout) :: this
this%Delegate => null()
end subroutine
logical function IsNull(this)
implicit none
class(IntegerEventHandler), intent(in) :: this
IsNull = .not.associated(this%Delegate)
end function
subroutine Run(this, arg)
implicit none
class(IntegerEventHandler), intent(inout) :: this
integer, intent(in) :: arg
!if(.not.this%IsNull())
call this%Delegate(arg)
end subroutine
end module CIntegerEventHandler

+ 0
- 103
CSharp/Common/EventHandlers/CIntegerEventHandlerCollection.f90 Целия файл

@@ -1,103 +0,0 @@
module CIntegerEventHandlerCollection
use CIntegerEventHandler
implicit none
public
type, public :: IntegerEventHandlerCollection
type(IntegerEventHandler), allocatable :: Delegates(:)
contains
procedure :: Length => Length
procedure :: Add => Add
procedure :: Remove => Remove
procedure :: Empty => Empty
procedure :: IsEmpty => IsEmpty
procedure :: RunAll => RunAll
end type IntegerEventHandlerCollection
contains
integer function Length(this)
implicit none
class(IntegerEventHandlerCollection), intent(in) :: this
if(allocated(this%Delegates)) then
Length = size(this%Delegates)
return
end if
Length = 0
end function
subroutine Add(this, proc)
implicit none
class(IntegerEventHandlerCollection), intent(inout) :: this
type(IntegerEventHandler), allocatable :: tempArr(:)
procedure (ActionInteger), pointer, intent(in) :: proc
integer :: i, isize
if(allocated(this%Delegates)) then
isize = size(this%Delegates)
allocate(tempArr(isize+1))
do i=1,isize
tempArr(i) = this%Delegates(i)
end do
call tempArr(isize+1)%MakeNull()
call tempArr(isize+1)%AssignTo(proc)
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
else
allocate(this%Delegates(1))
call this%Delegates(1)%MakeNull()
call this%Delegates(1)%AssignTo(proc)
end if
end subroutine
subroutine Remove(this, index)
implicit none
class(IntegerEventHandlerCollection), intent(inout) :: this
integer, intent(in) :: index
type(IntegerEventHandler), allocatable :: tempArr(:)
integer :: i
logical :: found
if(index <= 0 .or. index > size(this%Delegates)) return
if(.not.allocated(this%Delegates))return
allocate(tempArr(size(this%Delegates)-1))
found = .false.
do i=1, size(this%Delegates)
if(i==index) then
found = .true.
cycle
end if
if(found) then
tempArr(i-1) = this%Delegates(i)
else
tempArr(i) = this%Delegates(i)
endif
end do
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
end subroutine
subroutine Empty(this)
implicit none
class(IntegerEventHandlerCollection), intent(inout) :: this
if(allocated(this%Delegates)) deallocate(this%Delegates)
end subroutine
logical function IsEmpty(this)
implicit none
class(IntegerEventHandlerCollection), intent(in) :: this
IsEmpty = .not.allocated(this%Delegates)
end function
subroutine RunAll(this, arg)
implicit none
class(IntegerEventHandlerCollection), intent(inout) :: this
integer, intent(in) :: arg
integer :: i
do i=1, size(this%Delegates)
call this%Delegates(i)%Run(arg)
end do
end subroutine
end module CIntegerEventHandlerCollection

+ 0
- 44
CSharp/Common/EventHandlers/CRealEventHandler.f90 Целия файл

@@ -1,44 +0,0 @@
module CRealEventHandler
use CIActionReference
implicit none
public
type :: RealEventHandler
procedure(ActionReal), pointer, nopass :: Delegate => null()
contains
procedure :: AssignTo => AssignTo
procedure :: MakeNull => MakeNull
procedure :: IsNull => IsNull
procedure :: Run => Run
end type RealEventHandler
contains
subroutine AssignTo(this, proc)
implicit none
class(RealEventHandler), intent(inout) :: this
procedure (ActionReal), pointer, intent(in) :: proc
this%Delegate => proc
end subroutine
subroutine MakeNull(this)
implicit none
class(RealEventHandler), intent(inout) :: this
this%Delegate => null()
end subroutine
logical function IsNull(this)
implicit none
class(RealEventHandler), intent(in) :: this
IsNull = .not.associated(this%Delegate)
end function
subroutine Run(this, arg)
implicit none
class(RealEventHandler), intent(inout) :: this
real, intent(in) :: arg
!if(.not.this%IsNull())
call this%Delegate(arg)
end subroutine
end module CRealEventHandler

+ 0
- 103
CSharp/Common/EventHandlers/CRealEventHandlerCollection.f90 Целия файл

@@ -1,103 +0,0 @@
module CRealEventHandlerCollection
use CRealEventHandler
implicit none
public
type, public :: RealEventHandlerCollection
type(RealEventHandler), allocatable :: Delegates(:)
contains
procedure :: Length => Length
procedure :: Add => Add
procedure :: Remove => Remove
procedure :: Empty => Empty
procedure :: IsEmpty => IsEmpty
procedure :: RunAll => RunAll
end type RealEventHandlerCollection
contains
integer function Length(this)
implicit none
class(RealEventHandlerCollection), intent(in) :: this
if(allocated(this%Delegates)) then
Length = size(this%Delegates)
return
end if
Length = 0
end function
subroutine Add(this, proc)
implicit none
class(RealEventHandlerCollection), intent(inout) :: this
type(RealEventHandler), allocatable :: tempArr(:)
procedure (ActionReal), pointer, intent(in) :: proc
integer :: i, isize
if(allocated(this%Delegates)) then
isize = size(this%Delegates)
allocate(tempArr(isize+1))
do i=1,isize
tempArr(i) = this%Delegates(i)
end do
call tempArr(isize+1)%MakeNull()
call tempArr(isize+1)%AssignTo(proc)
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
else
allocate(this%Delegates(1))
call this%Delegates(1)%MakeNull()
call this%Delegates(1)%AssignTo(proc)
end if
end subroutine
subroutine Remove(this, index)
implicit none
class(RealEventHandlerCollection), intent(inout) :: this
integer, intent(in) :: index
type(RealEventHandler), allocatable :: tempArr(:)
integer :: i
logical :: found
if(index <= 0 .or. index > size(this%Delegates)) return
if(.not.allocated(this%Delegates))return
allocate(tempArr(size(this%Delegates)-1))
found = .false.
do i=1, size(this%Delegates)
if(i==index) then
found = .true.
cycle
end if
if(found) then
tempArr(i-1) = this%Delegates(i)
else
tempArr(i) = this%Delegates(i)
endif
end do
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
end subroutine
subroutine Empty(this)
implicit none
class(RealEventHandlerCollection), intent(inout) :: this
if(allocated(this%Delegates)) deallocate(this%Delegates)
end subroutine
logical function IsEmpty(this)
implicit none
class(RealEventHandlerCollection), intent(in) :: this
IsEmpty = .not.allocated(this%Delegates)
end function
subroutine RunAll(this, arg)
implicit none
class(RealEventHandlerCollection), intent(inout) :: this
real, intent(in) :: arg
integer :: i
do i=1, size(this%Delegates)
call this%Delegates(i)%Run(arg)
end do
end subroutine
end module CRealEventHandlerCollection

+ 0
- 44
CSharp/Common/EventHandlers/CVoidEventHandler.f90 Целия файл

@@ -1,44 +0,0 @@
module CVoidEventHandler
use CIActionReference
implicit none
public
type :: VoidEventHandler
procedure(ActionVoid), pointer, nopass :: Delegate => null()
contains
procedure :: AssignTo => AssignTo
procedure :: MakeNull => MakeNull
procedure :: IsNull => IsNull
procedure :: Run => Run
end type VoidEventHandler
contains
subroutine AssignTo(this, proc)
implicit none
class(VoidEventHandler), intent(inout) :: this
procedure (ActionVoid), pointer, intent(in) :: proc
this%Delegate => proc
end subroutine
subroutine MakeNull(this)
implicit none
class(VoidEventHandler), intent(inout) :: this
this%Delegate => null()
end subroutine
logical function IsNull(this)
implicit none
class(VoidEventHandler), intent(in) :: this
IsNull = .not.associated(this%Delegate)
end function
subroutine Run(this)
implicit none
class(VoidEventHandler), intent(inout) :: this
!if(.not.this%IsNull()) then
call this%Delegate()
!endif
end subroutine
end module CVoidEventHandler

+ 0
- 102
CSharp/Common/EventHandlers/CVoidEventHandlerCollection.f90 Целия файл

@@ -1,102 +0,0 @@
module CVoidEventHandlerCollection
use CVoidEventHandler
implicit none
public
type, public :: VoidEventHandlerCollection
type(VoidEventHandler), allocatable :: Delegates(:)
contains
procedure :: Length => Length
procedure :: Add => Add
procedure :: Remove => Remove
procedure :: Empty => Empty
procedure :: IsEmpty => IsEmpty
procedure :: RunAll => RunAll
end type VoidEventHandlerCollection
contains
integer function Length(this)
implicit none
class(VoidEventHandlerCollection), intent(in) :: this
if(allocated(this%Delegates)) then
Length = size(this%Delegates)
return
end if
Length = 0
end function
subroutine Add(this, proc)
implicit none
class(VoidEventHandlerCollection), intent(inout) :: this
type(VoidEventHandler), allocatable :: tempArr(:)
procedure (ActionVoid), pointer, intent(in) :: proc
integer :: i, isize
if(allocated(this%Delegates)) then
isize = size(this%Delegates)
allocate(tempArr(isize+1))
do i=1,isize
tempArr(i) = this%Delegates(i)
end do
call tempArr(isize+1)%MakeNull()
call tempArr(isize+1)%AssignTo(proc)
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
else
allocate(this%Delegates(1))
call this%Delegates(1)%MakeNull()
call this%Delegates(1)%AssignTo(proc)
end if
end subroutine
subroutine Remove(this, index)
implicit none
class(VoidEventHandlerCollection), intent(inout) :: this
integer, intent(in) :: index
type(VoidEventHandler), allocatable :: tempArr(:)
integer :: i
logical :: found
if(index <= 0 .or. index > size(this%Delegates)) return
if(.not.allocated(this%Delegates))return
allocate(tempArr(size(this%Delegates)-1))
found = .false.
do i=1, size(this%Delegates)
if(i==index) then
found = .true.
cycle
end if
if(found) then
tempArr(i-1) = this%Delegates(i)
else
tempArr(i) = this%Delegates(i)
endif
end do
deallocate(this%Delegates)
call move_alloc(tempArr, this%Delegates)
end subroutine
subroutine Empty(this)
implicit none
class(VoidEventHandlerCollection), intent(inout) :: this
if(allocated(this%Delegates)) deallocate(this%Delegates)
end subroutine
logical function IsEmpty(this)
implicit none
class(VoidEventHandlerCollection), intent(in) :: this
IsEmpty = .not.allocated(this%Delegates)
end function
subroutine RunAll(this)
implicit none
class(VoidEventHandlerCollection), intent(inout) :: this
integer :: i
do i=1, size(this%Delegates)
call this%Delegates(i)%Run()
end do
end subroutine
end module CVoidEventHandlerCollection

+ 3
- 0
CSharp/DownHole/CDownHoleVariables.f90 Целия файл

@@ -5,6 +5,9 @@ module CDownHoleVariables
use CLog4
implicit none
public
!!!!!!!!!!!!!!!!!!!!!
! Outputs to user interface
!!!!!!!!!!!!!!!!!!!!!
type :: DownHoleType
logical :: AnnDrillMud
logical :: AnnCirculateMud


+ 3
- 3
CSharp/Equipments/ControlPanels/CDataDisplayConsoleVariables.f90 Целия файл

@@ -1,6 +1,6 @@
module CDataDisplayConsoleVariables
use CIActionReference
use CDoubleEventHandlerCollection
! !**use CDoubleEventHandlerCollection
implicit none
public
@@ -66,7 +66,7 @@ module CDataDisplayConsoleVariables
real(8) :: ReturnLineTempGauge
real(8) :: RotaryTorqueGauge
real(8) :: RotaryRPMGauge
type(DoubleEventHandlerCollection) :: OnRotaryRpmChange
! !**type(DoubleEventHandlerCollection) :: OnRotaryRpmChange
integer :: AcidGasDetectionLED
real(8) :: TotalStrokeCounter
!real(8) :: TotalStrokeCounter_temp
@@ -221,7 +221,7 @@ module CDataDisplayConsoleVariables
DataDisplayConsole%RotaryRPMGauge = v
DrillingWatch%RPM = v
DataDisplayConsole%RTRPM = v
call DataDisplayConsole%OnRotaryRpmChange%RunAll(v)
! call DataDisplayConsole%OnRotaryRpmChange%RunAll(v)
end subroutine


+ 6
- 6
CSharp/Equipments/ControlPanels/CDrillingConsoleVariables.f90 Целия файл

@@ -1,6 +1,6 @@
module CDrillingConsoleVariables

use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
public
@@ -33,9 +33,9 @@ module CDrillingConsoleVariables
real(8) :: DWPowerLever
real(8) :: TongLever
! type(VoidEventHandlerCollection) :: OnBreakoutLeverPress
! type(VoidEventHandlerCollection) :: OnMakeupLeverPress
! type(VoidEventHandlerCollection) :: OnTongNeutralPress
! ! type(VoidEventHandlerCollection) :: OnBreakoutLeverPress
! ! type(VoidEventHandlerCollection) :: OnMakeupLeverPress
! ! type(VoidEventHandlerCollection) :: OnTongNeutralPress
real(8) :: RTTransmissionLever
real(8) :: DWClutchLever
@@ -47,11 +47,11 @@ module CDrillingConsoleVariables
logical :: GEN4
logical :: Permission_OpenKellyCock = .false.
logical :: OpenKellyCock
! type(VoidEventHandlerCollection) :: OnOpenKellyCockPress
! ! type(VoidEventHandlerCollection) :: OnOpenKellyCockPress
logical :: Permission_CloseKellyCock = .false.
logical :: CloseKellyCock
! type(VoidEventHandlerCollection) :: OnCloseKellyCockPress
! ! type(VoidEventHandlerCollection) :: OnCloseKellyCockPress
logical :: Permission_OpenSafetyValve = .false.
logical :: OpenSafetyValve


+ 3
- 3
CSharp/Equipments/ControlPanels/CHookVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CHookVariables
use CRealEventHandlerCollection
!**use CRealEventHandlerCollection
! use CHookActions
implicit none
Type :: HookType
real :: HookHeight_S = 0.0
real :: HookHeight
type(RealEventHandlerCollection) :: OnHookHeightChange
!**type(RealEventHandlerCollection) :: OnHookHeightChange
end type HookType
Type(HookType)::Hook

@@ -29,7 +29,7 @@ module CHookVariables
print*, 'HookHeight=', Hook%HookHeight
#endif
call Hook%OnHookHeightChange%RunAll(Hook%HookHeight)
!**call Hook%OnHookHeightChange%RunAll(Hook%HookHeight)
end subroutine


+ 8
- 8
CSharp/Equipments/MudPathFinding/CManifolds.f90 Целия файл

@@ -1,7 +1,7 @@
module CManifolds
use CStack
use CArrangement
use CPathChangeEvents
! use CPathChangeEvents
use CDrillingConsoleVariables!, only: DrillingConsole%IRSafetyValveLed, DrillingConsole%IRIBopLed, DrillingConsole%OpenKellyCockLed, DrillingConsole%CloseKellyCockLed, DrillingConsole%OpenSafetyValveLed, DrillingConsole%CloseSafetyValveLed
implicit none
@@ -44,9 +44,9 @@ module CManifolds
call Setup()
!call OnSimulationInitialization%Add(PathFinding_Init)
!call OnSimulationStop%Add(PathFinding_Init)
!call OnPathFindingStep%Add(PathFinding_Step)
!call OnPathFindingOutput%Add(PathFinding_Output)
! call OnPathFindingMain%Add(PathFindingMainBody)
!!**call OnpPathFindingStep%Add(PathFinding_Step)
!!**call OnpPathFindingOutput%Add(PathFinding_Output)
! !**call OnpPathFindingMain%Add(PathFindingMainBody)
end subroutine
subroutine PathFinding_Init
@@ -86,7 +86,7 @@ end subroutine PathFinding_Step
integer, dimension(8) :: StartTime,EndTime !TODO: clean up
call DATE_AND_TIME(values=StartTime) !TODO: clean up
call BeforeTraverse%RunAll()
!**call BeforeTraverse%RunAll()
if(allocated(Manifold%OpenPaths)) deallocate(Manifold%OpenPaths)
@@ -99,7 +99,7 @@ end subroutine PathFinding_Step
call PostProcess(Manifold%OpenPaths)
call AfterTraverse%RunAll()
!**call AfterTraverse%RunAll()
Manifold%IsTraverse = .true.
@@ -189,7 +189,7 @@ end subroutine PathFinding_Step
if(p%IsNull()) return
if(p%Length()<=1) return
call OnPathOpen%RunAll(p%Valves)
!**call OnpPathOpen%RunAll(p%Valves)
if(allocated(pathArr)) then
isize = size(pathArr)
@@ -253,7 +253,7 @@ end subroutine PathFinding_Step
end if
if(found) then
tempArr(i-1) = pathArr(i)
!call OnPathClose%RunAll(pathArr(i)%Valves)
!!**call OnpPathClose%RunAll(pathArr(i)%Valves)
else
tempArr(i) = pathArr(i)
endif


+ 4
- 4
CSharp/OperationScenarios/Common/COperationScenariosVariables.f90 Целия файл

@@ -102,11 +102,11 @@ module COperationScenariosVariables

!moved from enum/CElevatorConnectionEnum
integer :: ElevatorConnection = 0
type(VoidEventHandlerCollection) :: OnElevatorConnectionChange
! type(VoidEventHandlerCollection) :: OnElevatorConnectionChange

!moved from SoftwareOutputs/CStringUpdateVariables
integer :: StringUpdate = 0
type(IntegerEventHandlerCollection) :: OnStringUpdateChange
!**type(IntegerEventHandlerCollection) :: OnStringUpdateChange
end type OperationScenarioType
@@ -130,7 +130,7 @@ module COperationScenariosVariables
if(OperationScenario%StringUpdate == v) return
#endif
OperationScenario%StringUpdate = v
call OperationScenario%OnStringUpdateChange%RunAll(v)
!**call OperationScenario%OnStringUpdateChange%RunAll(v)
end subroutine
integer function Get_StringUpdate()
@@ -166,7 +166,7 @@ module COperationScenariosVariables
#ifdef deb
print*, 'OperationScenario%ElevatorConnection=', OperationScenario%ElevatorConnection
#endif
call OperationScenario%OnElevatorConnectionChange%RunAll()
!**call OperationScenario%OnElevatorConnectionChange%RunAll()
end subroutine
integer function Get_ElevatorConnection()


+ 1
- 1
CSharp/OperationScenarios/Enums/CElevatorConnectionEnumVariables.f90 Целия файл

@@ -3,7 +3,7 @@ module CElevatorConnectionEnumVariables
implicit none
! Mahmood: this variable moved to operationscenariocommon
! integer :: OperationScenario%ElevatorConnection = 0
! type(VoidEventHandlerCollection) :: OnElevatorConnectionChange
! ! type(VoidEventHandlerCollection) :: OnElevatorConnectionChange
public


+ 3
- 3
CSharp/OperationScenarios/Enums/CKellyConnectionEnumVariables.f90 Целия файл

@@ -1,9 +1,9 @@
module CKellyConnectionEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
type::KellyConnectionEnumType
integer :: KellyConnection = 0
type(VoidEventHandlerCollection) :: OnKellyConnectionChange
! type(VoidEventHandlerCollection) :: OnKellyConnectionChange
end type KellyConnectionEnumType
type(KellyConnectionEnumType)::KellyConnectionEnum
! public
@@ -37,7 +37,7 @@ module CKellyConnectionEnumVariables
#ifdef deb
print*, 'KellyConnectionEnum%KellyConnection=', KellyConnectionEnum%KellyConnection
#endif
call KellyConnectionEnum%OnKellyConnectionChange%RunAll()
!**call KellyConnectionEnum%OnKellyConnectionChange%RunAll()
end subroutine
integer function Get_KellyConnection()


+ 3
- 3
CSharp/OperationScenarios/Enums/CTdsConnectionModesEnumVariables.f90 Целия файл

@@ -1,9 +1,9 @@
module CTdsConnectionModesEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
type:: TdsConnectionModesEnumType
integer :: TdsConnectionModes = 0
type(VoidEventHandlerCollection) :: OnTdsConnectionModesChange
! type(VoidEventHandlerCollection) :: OnTdsConnectionModesChange
end type TdsConnectionModesEnumType
type(TdsConnectionModesEnumType)::TdsConnectionModesEnum
enum, bind(c)
@@ -33,7 +33,7 @@ module CTdsConnectionModesEnumVariables
#ifdef deb
print*, 'TdsConnectionModesEnum%TdsConnectionModes=', TdsConnectionModesEnum%TdsConnectionModes
#endif
call TdsConnectionModesEnum%OnTdsConnectionModesChange%RunAll()
!**call TdsConnectionModesEnum%OnTdsConnectionModesChange%RunAll()
end subroutine
integer function Get_TdsConnectionModes()


+ 3
- 3
CSharp/OperationScenarios/Enums/CTdsElevatorModesEnumVariables.f90 Целия файл

@@ -1,9 +1,9 @@
module CTdsElevatorModesEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
type:: TdsElevatorModesEnumType
integer :: TdsElevatorModes = 0
type(VoidEventHandlerCollection) :: OnTdsElevatorModesChange
! type(VoidEventHandlerCollection) :: OnTdsElevatorModesChange
end type TdsElevatorModesEnumType
type(TdsElevatorModesEnumType)::TdsElevatorModesEnum
enum, bind(c)
@@ -26,7 +26,7 @@ module CTdsElevatorModesEnumVariables
if(TdsElevatorModesEnum%TdsElevatorModes == v) return
#endif
TdsElevatorModesEnum%TdsElevatorModes = v
call TdsElevatorModesEnum%OnTdsElevatorModesChange%RunAll()
!**call TdsElevatorModesEnum%OnTdsElevatorModesChange%RunAll()
end subroutine
integer function Get_TdsElevatorModes()


+ 11
- 11
CSharp/OperationScenarios/Notifications/CTongNotification.f90 Целия файл

@@ -268,19 +268,19 @@ module CTongNotification
end subroutine
subroutine Subscribe_TongNotification()
implicit none
! subroutine Subscribe_TongNotification()
! implicit none
call UnitySignals%OnOperationConditionChange%Add(Evaluate_TongNotification)
call SoftwareInputs%OnHookHeightChange%Add(Evaluate_TongNotification)
call UnityInputs%OnJointConnectionPossibleChange%Add(Evaluate_TongNotification)
call UnityInputs%OnSingleSetInMouseHoleChange%Add(Evaluate_TongNotification)
call OperationScenario%OnElevatorConnectionChange%Add(Evaluate_TongNotification)
call KellyConnectionEnum%OnKellyConnectionChange%Add(Evaluate_TongNotification)
call UnitySignals%OnSwingChange%Add(Evaluate_TongNotification)
call UnitySignals%OnSlipsChange%Add(Evaluate_TongNotification)
! call UnitySignals%OnOperationConditionChange%Add(Evaluate_TongNotification)
! ! call softwareInputs%OnHookHeightChange%Add(Evaluate_TongNotification)
! call UnityInputs%OnJointConnectionPossibleChange%Add(Evaluate_TongNotification)
! call UnityInputs%OnSingleSetInMouseHoleChange%Add(Evaluate_TongNotification)
! call OperationScenario%OnElevatorConnectionChange%Add(Evaluate_TongNotification)
! call KellyConnectionEnum%OnKellyConnectionChange%Add(Evaluate_TongNotification)
! call UnitySignals%OnSwingChange%Add(Evaluate_TongNotification)
! call UnitySignals%OnSlipsChange%Add(Evaluate_TongNotification)
end subroutine
! end subroutine

+ 12
- 17
CSharp/OperationScenarios/Notifications/CUnlatchLedNotification.f90 Целия файл

@@ -198,24 +198,19 @@ module CUnlatchLedNotification
call Set_UnlatchLed(.false.)

endif
end subroutine
subroutine Subscribe_UnlatchLed()
implicit none
call UnitySignals%OnOperationConditionChange%Add(Evaluate_UnlatchLed)
call SoftwareInputs%OnHookHeightChange%Add(Evaluate_UnlatchLed)
call SoftwareInputs%OnStandRackChanged%Add(Evaluate_UnlatchLed)
call OperationScenario%OnElevatorConnectionChange%Add(Evaluate_UnlatchLed)
call UnitySignals%OnSwingChange%Add(Evaluate_UnlatchLed)
call UnitySignals%OnSlipsChange%Add(Evaluate_UnlatchLed)
call Notifications%OnLatchLedChange%Add(Evaluate_UnlatchLed)
call Notifications%OnFillMouseHoleLedChange%Add(Evaluate_UnlatchLed)
end subroutine
! subroutine Subscribe_UnlatchLed()
! implicit none
! !**call UnitySignals%OnOperationConditionChange%Add(Evaluate_UnlatchLed)
! ! call softwareInputs%OnHookHeightChange%Add(Evaluate_UnlatchLed)
! ! call softwareInputs%OnStandRackChanged%Add(Evaluate_UnlatchLed)
! call OperationScenario%OnElevatorConnectionChange%Add(Evaluate_UnlatchLed)
! !**call UnitySignals%OnSwingChange%Add(Evaluate_UnlatchLed)
! !**call UnitySignals%OnSlipsChange%Add(Evaluate_UnlatchLed)
! !**call Notifications%OnLatchLedChange%Add(Evaluate_UnlatchLed)
! !**call Notifications%OnFillMouseHoleLedChange%Add(Evaluate_UnlatchLed)
! end subroutine
end module CUnlatchLedNotification

+ 33
- 33
CSharp/OperationScenarios/Notifications/NotificationVariables.f90 Целия файл

@@ -1,57 +1,57 @@
module NotificationVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
type::NotificationType
logical :: CloseKellyCockLed = .false.
type(VoidEventHandlerCollection) :: OnCloseKellyCockLedChange
! type(VoidEventHandlerCollection) :: OnCloseKellyCockLedChange

logical :: CloseSafetyValveLed = .false.
integer :: operation_CloseSafetyValveLed = 0
type(VoidEventHandlerCollection) :: OnCloseSafetyValveLedChange
! type(VoidEventHandlerCollection) :: OnCloseSafetyValveLedChange
logical :: FillMouseHoleLed = .false.
type(VoidEventHandlerCollection) :: OnFillMouseHoleLedChange
! type(VoidEventHandlerCollection) :: OnFillMouseHoleLedChange

logical :: IrIBopLed = .false.
type(VoidEventHandlerCollection) :: OnIrIBopLedChange
! type(VoidEventHandlerCollection) :: OnIrIBopLedChange

logical :: IrSafetyValveLed = .false.
integer :: operation_IrSafetyValveLed = 0
type(VoidEventHandlerCollection) :: OnIrSafetyValveLedChange
! type(VoidEventHandlerCollection) :: OnIrSafetyValveLedChange
logical :: LatchLed = .false.
type(VoidEventHandlerCollection) :: OnLatchLedChange
! type(VoidEventHandlerCollection) :: OnLatchLedChange
logical :: OpenKellyCockLed = .false.
type(VoidEventHandlerCollection) :: OnOpenKellyCockLedChange
! type(VoidEventHandlerCollection) :: OnOpenKellyCockLedChange

logical :: OpenSafetyValveLed = .false.

integer :: operation_OpenSafetyValveLed = 0
type(VoidEventHandlerCollection) :: OnOpenSafetyValveLedChange
! type(VoidEventHandlerCollection) :: OnOpenSafetyValveLedChange
logical :: SlipsNotification = .false.
! procedure (ActionBool), pointer :: SlipsNotificationPtr
type(VoidEventHandlerCollection) :: OnSlipsNotificationChange
! type(VoidEventHandlerCollection) :: OnSlipsNotificationChange

logical :: SwingLed = .false.
type(VoidEventHandlerCollection) :: OnSwingLedChange
! type(VoidEventHandlerCollection) :: OnSwingLedChange
logical :: IbopLed = .false.
type(VoidEventHandlerCollection) :: OnIbopLedChange
! type(VoidEventHandlerCollection) :: OnIbopLedChange
logical :: PowerLed = .false.
type(VoidEventHandlerCollection) :: OnPowerLedChange
! type(VoidEventHandlerCollection) :: OnPowerLedChange
integer :: TorqueWrenchLed = 0
type(VoidEventHandlerCollection) :: OnTorqueWrenchLedChange
! type(VoidEventHandlerCollection) :: OnTorqueWrenchLedChange
logical :: TongNotification = .false.
! procedure (ActionBool), pointer :: TongNotificationPtr
type(VoidEventHandlerCollection) :: OnTongNotificationChange
! type(VoidEventHandlerCollection) :: OnTongNotificationChange
logical :: UnlatchLed = .false.
type(VoidEventHandlerCollection) :: OnUnlatchLedChange
! type(VoidEventHandlerCollection) :: OnUnlatchLedChange
end type NotificationType
type(NotificationType)::notifications

@@ -74,7 +74,7 @@ module NotificationVariables
DrillingConsole%UnlatchPipeLED = 0
endif
call notifications%OnUnlatchLedChange%RunAll()
!**call notifications%OnUnlatchLedChange%RunAll()
end subroutine
logical function Get_UnlatchLed()
@@ -89,11 +89,11 @@ module NotificationVariables
if(notifications%TongNotification == v) return
#endif
notifications%TongNotification = v
! if(associated(notifications%TongNotificationPtr)) call notifications%TongNotificationPtr(notifications%TongNotification)
! if(associated(notifications%TongNotificationPtr)) !**call notifications%TongNotificationPtr(notifications%TongNotification)
#ifdef deb
print*, 'notifications%TongNotification=', notifications%TongNotification
#endif
call notifications%OnTongNotificationChange%RunAll()
!**call notifications%OnTongNotificationChange%RunAll()
end subroutine
logical function Get_TongNotification()
@@ -111,7 +111,7 @@ module NotificationVariables
#endif
notifications%TorqueWrenchLed = v
TopDrivePanel%TopDriveTorqueWrenchLed = v
call notifications%OnTorqueWrenchLedChange%RunAll()
!**call notifications%OnTorqueWrenchLedChange%RunAll()
end subroutine
logical function Get_TorqueWrenchLed()
@@ -136,7 +136,7 @@ module NotificationVariables
TopDrivePanel%TopDriveTdsPowerLed = 0
endif
call notifications%OnPowerLedChange%RunAll()
!**call notifications%OnPowerLedChange%RunAll()
end subroutine
logical function Get_PowerLed()
@@ -163,7 +163,7 @@ module NotificationVariables
call OpenTopDriveIBop()
endif
call notifications%OnIbopLedChange%RunAll()
!**call notifications%OnIbopLedChange%RunAll()
end subroutine
logical function Get_IbopLed()
@@ -185,7 +185,7 @@ module NotificationVariables
else
DrillingConsole%SwingLed = 0
endif
call notifications%OnSwingLedChange%RunAll()
!**call notifications%OnSwingLedChange%RunAll()
end subroutine
logical function Get_SwingLed()
@@ -200,11 +200,11 @@ module NotificationVariables
if(notifications%SlipsNotification == v) return
#endif
notifications%SlipsNotification = v
! if(associated(notifications%SlipsNotificationPtr)) call notifications%SlipsNotificationPtr(notifications%SlipsNotification)
! if(associated(notifications%SlipsNotificationPtr)) !**call notifications%SlipsNotificationPtr(notifications%SlipsNotification)
#ifdef deb
print*, 'notifications%SlipsNotification=', notifications%SlipsNotification
#endif
call notifications%OnSlipsNotificationChange%RunAll()
!**call notifications%OnSlipsNotificationChange%RunAll()
end subroutine
logical function Get_SlipsNotification()
@@ -230,7 +230,7 @@ module NotificationVariables
if(Hoisting%DriveType == Kelly_DriveType .and. notifications%operation_OpenSafetyValveLed == 1) call OpenSafetyValve_TripMode()
endif
call notifications%OnOpenSafetyValveLedChange%RunAll()
!**call notifications%OnOpenSafetyValveLedChange%RunAll()
end subroutine
logical function Get_OpenSafetyValveLed()
@@ -260,7 +260,7 @@ module NotificationVariables
! OpenKellyCockLedHw = 0
!endif
call notifications%OnOpenKellyCockLedChange%RunAll()
!**call notifications%OnOpenKellyCockLedChange%RunAll()
end subroutine
logical function Get_OpenKellyCockLed()
@@ -283,7 +283,7 @@ module NotificationVariables
else
DrillingConsole%LatchPipeLED = 0
endif
call notifications%OnLatchLedChange%RunAll()
!**call notifications%OnLatchLedChange%RunAll()
end subroutine
logical function Get_LatchLed()
@@ -327,7 +327,7 @@ module NotificationVariables
call Set_SafetyValve_Remove()
endif
call notifications%OnIrSafetyValveLedChange%RunAll()
!**call notifications%OnIrSafetyValveLedChange%RunAll()
end subroutine
logical function Get_IrSafetyValveLed()
@@ -354,7 +354,7 @@ module NotificationVariables
call RemoveIBop()
call Set_Ibop_Remove()
endif
call notifications%OnIrIBopLedChange%RunAll()
!**call notifications%OnIrIBopLedChange%RunAll()
end subroutine
logical function Get_IrIBopLed()
@@ -379,7 +379,7 @@ module NotificationVariables
DrillingConsole%FillMouseHoleLed = 0
!call Set_MouseHole(MOUSE_HOLE_EMPTY)
endif
call notifications%OnFillMouseHoleLedChange%RunAll()
!**call notifications%OnFillMouseHoleLedChange%RunAll()
end subroutine
logical function Get_FillMouseHoleLed()
@@ -399,7 +399,7 @@ module NotificationVariables
if(notifications%CloseKellyCockLed) then
call CloseKellyCock()
endif
call notifications%OnCloseKellyCockLedChange%RunAll()
!**call notifications%OnCloseKellyCockLedChange%RunAll()
end subroutine
logical function Get_CloseKellyCockLed()
@@ -423,7 +423,7 @@ module NotificationVariables
if(Hoisting%DriveType == Kelly_DriveType .and. notifications%operation_CloseSafetyValveLed == 0) call CloseSafetyValve_KellyMode()
if(Hoisting%DriveType == Kelly_DriveType .and. notifications%operation_CloseSafetyValveLed == 1) call CloseSafetyValve_TripMode()
endif
call notifications%OnCloseSafetyValveLedChange%RunAll()
!**call notifications%OnCloseSafetyValveLedChange%RunAll()
end subroutine
logical function Get_CloseSafetyValveLed()


+ 21
- 21
CSharp/OperationScenarios/Permissions/PermissionsVariables.f90 Целия файл

@@ -1,26 +1,26 @@
module PermissionsVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
type::PermissionsType
logical :: FillupHeadPermission = .false.
type(VoidEventHandlerCollection) :: OnFillupHeadPermissionChange
! type(VoidEventHandlerCollection) :: OnFillupHeadPermissionChange
logical :: InstallFillupHeadPermission = .false.
type(VoidEventHandlerCollection) :: OnInstallFillupHeadPermissionChange
! type(VoidEventHandlerCollection) :: OnInstallFillupHeadPermissionChange
logical :: InstallMudBucketPermission = .false.
type(VoidEventHandlerCollection) :: OnInstallMudBucketPermissionChange
! type(VoidEventHandlerCollection) :: OnInstallMudBucketPermissionChange
logical :: IrIbopPermission = .false.
type(VoidEventHandlerCollection) :: OnIrIbopPermissionChange
! type(VoidEventHandlerCollection) :: OnIrIbopPermissionChange
logical :: IrSafetyValvePermission = .false.
type(VoidEventHandlerCollection) :: OnIrSafetyValvePermissionChange
! type(VoidEventHandlerCollection) :: OnIrSafetyValvePermissionChange
logical :: RemoveFillupHeadPermission = .false.
type(VoidEventHandlerCollection) :: OnRemoveFillupHeadPermissionChange
! type(VoidEventHandlerCollection) :: OnRemoveFillupHeadPermissionChange
logical :: RemoveMudBucketPermission = .false.
type(VoidEventHandlerCollection) :: OnRemoveMudBucketPermissionChange
! type(VoidEventHandlerCollection) :: OnRemoveMudBucketPermissionChange
logical :: SwingDrillPermission = .false.
type(VoidEventHandlerCollection) :: OnSwingDrillPermissionChange
! type(VoidEventHandlerCollection) :: OnSwingDrillPermissionChange
logical :: SwingOffPermission = .false.
type(VoidEventHandlerCollection) :: OnSwingOffPermissionChange
! type(VoidEventHandlerCollection) :: OnSwingOffPermissionChange
logical :: SwingTiltPermission = .false.
type(VoidEventHandlerCollection) :: OnSwingTiltPermissionChange
! type(VoidEventHandlerCollection) :: OnSwingTiltPermissionChange
end type PermissionsType

type(PermissionsType):: permissions
@@ -37,7 +37,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%SwingTiltPermission=', permissions%SwingTiltPermission
#endif
call permissions%OnSwingTiltPermissionChange%RunAll()
!**call permissions%OnSwingTiltPermissionChange%RunAll()
end subroutine

logical function Get_SwingTiltPermission()
@@ -55,7 +55,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%SwingOffPermission=', permissions%SwingOffPermission
#endif
call permissions%OnSwingOffPermissionChange%RunAll()
!**call permissions%OnSwingOffPermissionChange%RunAll()
end subroutine

logical function Get_SwingOffPermission()
@@ -73,7 +73,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%SwingDrillPermission=', permissions%SwingDrillPermission
#endif
call permissions%OnSwingDrillPermissionChange%RunAll()
!**call permissions%OnSwingDrillPermissionChange%RunAll()
end subroutine

logical function Get_SwingDrillPermission()
@@ -91,7 +91,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%RemoveMudBucketPermission=', permissions%RemoveMudBucketPermission
#endif
call permissions%OnRemoveMudBucketPermissionChange%RunAll()
!**call permissions%OnRemoveMudBucketPermissionChange%RunAll()
end subroutine

logical function Get_RemoveMudBucketPermission()
@@ -110,7 +110,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%RemoveFillupHeadPermission=', permissions%RemoveFillupHeadPermission
#endif
call permissions%OnRemoveFillupHeadPermissionChange%RunAll()
!**call permissions%OnRemoveFillupHeadPermissionChange%RunAll()
end subroutine

logical function Get_RemoveFillupHeadPermission()
@@ -128,7 +128,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%IrSafetyValvePermission=', permissions%IrSafetyValvePermission
#endif
call permissions%OnIrSafetyValvePermissionChange%RunAll()
!**call permissions%OnIrSafetyValvePermissionChange%RunAll()
end subroutine

logical function Get_IrSafetyValvePermission()
@@ -146,7 +146,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%IrIbopPermission=', permissions%IrIbopPermission
#endif
call permissions%OnIrIbopPermissionChange%RunAll()
!**call permissions%OnIrIbopPermissionChange%RunAll()
end subroutine

logical function Get_IrIbopPermission()
@@ -165,7 +165,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'permissions%InstallMudBucketPermission=', permissions%InstallMudBucketPermission
#endif
call permissions%OnInstallMudBucketPermissionChange%RunAll()
!**call permissions%OnInstallMudBucketPermissionChange%RunAll()
end subroutine

logical function Get_InstallMudBucketPermission()
@@ -183,7 +183,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'InstallFillupHeadPermission=', permissions%InstallFillupHeadPermission
#endif
call permissions%OnInstallFillupHeadPermissionChange%RunAll()
!**call permissions%OnInstallFillupHeadPermissionChange%RunAll()
end subroutine

logical function Get_InstallFillupHeadPermission()
@@ -201,7 +201,7 @@ use CVoidEventHandlerCollection
#ifdef deb
print*, 'FillupHeadPermission=', permissions%FillupHeadPermission
#endif
call permissions%OnFillupHeadPermissionChange%RunAll()
!**call permissions%OnFillupHeadPermissionChange%RunAll()
end subroutine

logical function Get_FillupHeadPermission()


+ 19
- 19
CSharp/OperationScenarios/SoftwareInputsVariables.f90 Целия файл

@@ -1,24 +1,24 @@
module SoftwareInputsVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
type:: SoftwareInputsType
real :: HookHeight = 0
type(VoidEventHandlerCollection) :: OnHookHeightChange
! type(VoidEventHandlerCollection) :: OnHookHeightChange
real :: IbopHeight = 0
type(VoidEventHandlerCollection) :: OnIbopHeightChange
! type(VoidEventHandlerCollection) :: OnIbopHeightChange
real :: NearFloorConnection = 0
type(VoidEventHandlerCollection) :: OnNearFloorConnectionChange
! type(VoidEventHandlerCollection) :: OnNearFloorConnectionChange
real :: SafetyValveHeight = 0
type(VoidEventHandlerCollection) :: OnSafetyValveHeightChange
! type(VoidEventHandlerCollection) :: OnSafetyValveHeightChange
logical :: SlackOff = .false.
type(VoidEventHandlerCollection) :: OnSlackOffChange
! type(VoidEventHandlerCollection) :: OnSlackOffChange
integer :: StandRack = 0
type(VoidEventHandlerCollection) :: OnStandRackChanged
! type(VoidEventHandlerCollection) :: OnStandRackChanged
real :: StringPressure = 0
type(VoidEventHandlerCollection) :: OnStringPressureChange
! type(VoidEventHandlerCollection) :: OnStringPressureChange
real :: TdsStemJointHeight = 0
type(VoidEventHandlerCollection) :: OnTdsStemJointHeightChange
! type(VoidEventHandlerCollection) :: OnTdsStemJointHeightChange
logical :: ZeroStringSpeed = .false.
type(VoidEventHandlerCollection) :: OnZeroStringSpeedChange
! type(VoidEventHandlerCollection) :: OnZeroStringSpeedChange
end type SoftwareInputsType
type(SoftwareInputsType):: softwareInputs

@@ -34,7 +34,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'ZeroStringSpeed=', softwareInputs%ZeroStringSpeed
#endif
call softwareInputs%OnZeroStringSpeedChange%RunAll()
! call softwareInputs%OnZeroStringSpeedChange%RunAll()
end subroutine
logical function Get_ZeroStringSpeed()
@@ -53,7 +53,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'TdsStemJointHeight=', softwareInputs%TdsStemJointHeight
#endif
call softwareInputs%OnTdsStemJointHeightChange%RunAll()
! call softwareInputs%OnTdsStemJointHeightChange%RunAll()
end subroutine
real function Get_TdsStemJointHeight()
@@ -72,7 +72,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'StringPressure=', softwareInputs%StringPressure
#endif
call softwareInputs%OnStringPressureChange%RunAll()
! call softwareInputs%OnStringPressureChange%RunAll()
end subroutine
real function Get_StringPressure()
@@ -90,7 +90,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'StandRack=', softwareInputs%StandRack
#endif
call softwareInputs%OnStandRackChanged%RunAll()
! call softwareInputs%OnStandRackChanged%RunAll()
end subroutine
integer function Get_StandRack()
@@ -108,7 +108,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'SlackOff=', softwareInputs%SlackOff
#endif
call softwareInputs%OnSlackOffChange%RunAll()
! call softwareInputs%OnSlackOffChange%RunAll()
end subroutine
logical function Get_SlackOff()
@@ -126,7 +126,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'SafetyValveHeight=', softwareInputs%SafetyValveHeight
#endif
call softwareInputs%OnSafetyValveHeightChange%RunAll()
! call softwareInputs%OnSafetyValveHeightChange%RunAll()
end subroutine
real function Get_SafetyValveHeight()
@@ -146,7 +146,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'NearFloorConnection=', softwareInputs%NearFloorConnection
#endif
call softwareInputs%OnNearFloorConnectionChange%RunAll()
! call softwareInputs%OnNearFloorConnectionChange%RunAll()
end subroutine
real function Get_NearFloorConnection()
@@ -165,7 +165,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'IbopHeight=', softwareInputs%IbopHeight
#endif
call softwareInputs%OnIbopHeightChange%RunAll()
! call softwareInputs%OnIbopHeightChange%RunAll()
end subroutine
real function Get_IbopHeight()
@@ -184,7 +184,7 @@ module SoftwareInputsVariables
#ifdef deb
print*, 'HookHeight=', softwareInputs%HookHeight
#endif
call softwareInputs%OnHookHeightChange%RunAll()
! call softwareInputs%OnHookHeightChange%RunAll()
end subroutine
real function Get_HookHeight()


+ 1
- 1
CSharp/OperationScenarios/SoftwareOutputs/CStringUpdateVariables.f90 Целия файл

@@ -5,7 +5,7 @@ module CStringUpdateVariables
public
type(IntegerEventHandlerCollection) :: OnStringUpdateChange
!**type(IntegerEventHandlerCollection) :: OnStringUpdateChange
enum, bind(c)
enumerator STRING_UPDATE_NEUTRAL


+ 17
- 17
CSharp/OperationScenarios/Unity/CUnityInputs.f90 Целия файл

@@ -1,5 +1,5 @@
module CUnityInputs
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
type :: UnityInputsType
logical :: ElevatorConnectionPossible
@@ -22,15 +22,15 @@ module CUnityInputs
! public
type(VoidEventHandlerCollection) :: OnElevatorConnectionPossibleChange
type(VoidEventHandlerCollection) :: OnJointConnectionPossibleChange
type(VoidEventHandlerCollection) :: OnIsKellyBushingSetInTableChange
type(VoidEventHandlerCollection) :: OnElevatorPickupChange
type(VoidEventHandlerCollection) :: OnNearFloorPositionChange
type(VoidEventHandlerCollection) :: OnSingleSetInMouseHoleChange
! type(VoidEventHandlerCollection) :: OnElevatorConnectionPossibleChange
! type(VoidEventHandlerCollection) :: OnJointConnectionPossibleChange
! type(VoidEventHandlerCollection) :: OnIsKellyBushingSetInTableChange
! type(VoidEventHandlerCollection) :: OnElevatorPickupChange
! type(VoidEventHandlerCollection) :: OnNearFloorPositionChange
! type(VoidEventHandlerCollection) :: OnSingleSetInMouseHoleChange
type(VoidEventHandlerCollection) :: OnTdsConnectionPossibleChange
type(VoidEventHandlerCollection) :: OnTdsStemInChange
! type(VoidEventHandlerCollection) :: OnTdsConnectionPossibleChange
! type(VoidEventHandlerCollection) :: OnTdsStemInChange
end type UnityInputsType

type(UnityInputsType)::UnityInputs
@@ -306,7 +306,7 @@ module CUnityInputs
! if(UnityInputs%ElevatorConnectionPossible == v) return
! #endif
! UnityInputs%ElevatorConnectionPossible = v
! call UnityInputs%OnElevatorConnectionPossibleChange%RunAll()
! !**call UnityInputs%OnElevatorConnectionPossibleChange%RunAll()
! #ifdef deb
! print*, 'ElevatorConnectionPossible=', UnityInputs%ElevatorConnectionPossible
! #endif
@@ -341,7 +341,7 @@ module CUnityInputs
! if(UnityInputs%JointConnectionPossible == v) return
! #endif
! UnityInputs%JointConnectionPossible = v
! call UnityInputs%OnJointConnectionPossibleChange%RunAll()
! !**call UnityInputs%OnJointConnectionPossibleChange%RunAll()
! #ifdef deb
! print*, 'JointConnectionPossible=', UnityInputs%JointConnectionPossible
! #endif
@@ -373,7 +373,7 @@ module CUnityInputs
! if(UnityInputs%IsKellyBushingSetInTable == v) return
! #endif
! UnityInputs%IsKellyBushingSetInTable = v
! call UnityInputs%OnIsKellyBushingSetInTableChange%RunAll()
! !**call UnityInputs%OnIsKellyBushingSetInTableChange%RunAll()
! #ifdef deb
! print*, 'IsKellyBushingSetInTable=', UnityInputs%IsKellyBushingSetInTable
! #endif
@@ -406,7 +406,7 @@ module CUnityInputs
! if(UnityInputs%ElevatorPickup == v) return
! #endif
! UnityInputs%ElevatorPickup = v
! call UnityInputs%OnElevatorPickupChange%RunAll()
! !**call UnityInputs%OnElevatorPickupChange%RunAll()
! #ifdef deb
! print*, 'ElevatorPickup =', UnityInputs%ElevatorPickup
! #endif
@@ -438,7 +438,7 @@ module CUnityInputs
if(UnityInputs%NearFloorPosition == v) return
#endif
UnityInputs%NearFloorPosition = v
call UnityInputs%OnNearFloorPositionChange%RunAll()
!**call UnityInputs%OnNearFloorPositionChange%RunAll()
#ifdef deb
print*, 'NearFloorPosition =', UnityInputs%NearFloorPosition
#endif
@@ -482,7 +482,7 @@ module CUnityInputs
! if(UnityInputs%SingleSetInMouseHole == v) return
! #endif
! UnityInputs%SingleSetInMouseHole = v
! call UnityInputs%OnSingleSetInMouseHoleChange%RunAll()
! !**call UnityInputs%OnSingleSetInMouseHoleChange%RunAll()
! #ifdef deb
! print*, 'singleSetInMouseHole=', UnityInputs%SingleSetInMouseHole
! #endif
@@ -551,7 +551,7 @@ module CUnityInputs
! if(UnityInputs%TdsConnectionPossible == v) return
! #endif
! UnityInputs%TdsConnectionPossible = v
! call UnityInputs%OnTdsConnectionPossibleChange%RunAll()
! !**call UnityInputs%OnTdsConnectionPossibleChange%RunAll()
! #ifdef deb
! print*, 'TdsConnectionPossible=', UnityInputs%TdsConnectionPossible
! #endif
@@ -581,7 +581,7 @@ module CUnityInputs
! if(UnityInputs%TdsStemIn == v) return
! #endif
! UnityInputs%TdsStemIn = v
! call UnityInputs%OnTdsStemInChange%RunAll()
! !**call UnityInputs%OnTdsStemInChange%RunAll()
! #ifdef deb
! print*, 'TdsStemIn=', UnityInputs%TdsStemIn
! #endif


+ 1
- 1
CSharp/OperationScenarios/Unity/CUnityOutputs.f90 Целия файл

@@ -22,7 +22,7 @@ module CUnityOutputs
use CDataDisplayConsoleVariables
implicit none
PumpsSpmChanges => Calc_KellyHoseVibrationRate
call DataDisplayConsole%OnRotaryRpmChange%Add(Set_RotaryRpm)
! call DataDisplayConsole%OnRotaryRpmChange%Add(Set_RotaryRpm)
end subroutine


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CBucketEnumVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CBucketEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: MudBucket = 0
public
type(VoidEventHandlerCollection) :: OnMudBucketChange
! type(VoidEventHandlerCollection) :: OnMudBucketChange
enum, bind(c)
!enumerator MUD_BUCKET_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CElevatorEnumVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CElevatorEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: Elevator = 0
public
type(VoidEventHandlerCollection) :: OnElevatorChange
! type(VoidEventHandlerCollection) :: OnElevatorChange
enum, bind(c)
enumerator ELEVATOR_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CFlowKellyDisconnectEnumVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CFlowKellyDisconnectEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
! integer :: FlowKellyDisconnect = 0
!
! public
!
! type(VoidEventHandlerCollection) :: OnFlowKellyDisconnectChange
! ! type(VoidEventHandlerCollection) :: OnFlowKellyDisconnectChange
!
! enum, bind(c)
! enumerator FLOW_KELLY_DISCONNECT_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CFlowPipeDisconnectEnumVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CFlowPipeDisconnectEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
! integer :: FlowPipeDisconnect = 0
!
! public
!
! type(VoidEventHandlerCollection) :: OnFlowPipeDisconnectChange
! ! type(VoidEventHandlerCollection) :: OnFlowPipeDisconnectChange
!
! enum, bind(c)
! enumerator FLOW_PIPE_DISCONNECT_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CHeadEnumVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CHeadEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: FillupHead = 0
public
type(VoidEventHandlerCollection) :: OnFillupHeadChange
! type(VoidEventHandlerCollection) :: OnFillupHeadChange
enum, bind(c)
!enumerator FILLUP_HEAD_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CIbopEnumVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CIbopEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: Ibop = 0
public
type(VoidEventHandlerCollection) :: OnIbopChange
! type(VoidEventHandlerCollection) :: OnIbopChange
enum, bind(c)
!enumerator IBOP_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CKellyEnumVariables.f90 Целия файл

@@ -1,12 +1,12 @@
module CKellyEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: Kelly = 0
integer :: Kelly_S = 0
public
type(VoidEventHandlerCollection) :: OnKellyChange
! type(VoidEventHandlerCollection) :: OnKellyChange
enum, bind(c)
enumerator KELLY_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CMouseHoleEnumVariables.f90 Целия файл

@@ -1,12 +1,12 @@
module CMouseHoleEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: MouseHole = 0
integer :: MouseHole_S = 0
public
type(VoidEventHandlerCollection) :: OnMouseHoleChange
! type(VoidEventHandlerCollection) :: OnMouseHoleChange
enum, bind(c)
enumerator MOUSE_HOLE_NEUTRAL


+ 3
- 3
CSharp/OperationScenarios/UnitySignals/COperationConditionEnumVariables.f90 Целия файл

@@ -1,13 +1,13 @@
module COperationConditionEnumVariables
use CIntegerEventHandlerCollection
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: OperationCondition = 0
public
type(VoidEventHandlerCollection) :: OnOperationConditionChange
type(IntegerEventHandlerCollection) :: OnOperationConditionChangeInt
! type(VoidEventHandlerCollection) :: OnOperationConditionChange
!**type(IntegerEventHandlerCollection) :: OnOperationConditionChangeInt
enum, bind(c)
enumerator OPERATION_DRILL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CSafetyValveEnumVariables.f90 Целия файл

@@ -1,12 +1,12 @@
module CSafetyValveEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: SafetyValve = 0
integer :: operation = 0
public
type(VoidEventHandlerCollection) :: OnSafetyValveChange
! type(VoidEventHandlerCollection) :: OnSafetyValveChange
enum, bind(c)
enumerator SAFETY_VALVE_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CSlipsEnumVariables.f90 Целия файл

@@ -1,12 +1,12 @@
module CSlipsEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: Slips = 0
integer :: Slips_S = 0
public
type(VoidEventHandlerCollection) :: OnSlipsChange
! type(VoidEventHandlerCollection) :: OnSlipsChange
enum, bind(c)
enumerator SLIPS_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CSwingEnumVariables.f90 Целия файл

@@ -1,5 +1,5 @@
module CSwingEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
use CLog4
implicit none
integer :: Swing = 0
@@ -7,7 +7,7 @@ module CSwingEnumVariables
public
type(VoidEventHandlerCollection) :: OnSwingChange
! type(VoidEventHandlerCollection) :: OnSwingChange
enum, bind(c)
enumerator SWING_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CTdsBackupClampVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CTdsBackupClampVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: TdsBackupClamp = 0
public
type(VoidEventHandlerCollection) :: OnTdsBackupClampChange
! type(VoidEventHandlerCollection) :: OnTdsBackupClampChange
enum, bind(c)
enumerator BACKUP_CLAMP_OFF_END


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CTdsSpineEnumVariables.f90 Целия файл

@@ -1,12 +1,12 @@
module CTdsSpineEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
use CLog4
implicit none
integer :: TdsSpine = 0
public
type(VoidEventHandlerCollection) :: OnTdsSpineChange
! type(VoidEventHandlerCollection) :: OnTdsSpineChange
enum, bind(c)
enumerator TDS_SPINE_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CTdsSwingEnumVariables.f90 Целия файл

@@ -1,12 +1,12 @@
module CTdsSwingEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
use CLog4
implicit none
integer :: TdsSwing = 0
public
type(VoidEventHandlerCollection) :: OnTdsSwingChange
! type(VoidEventHandlerCollection) :: OnTdsSwingChange
enum, bind(c)
enumerator TDS_SWING_NEUTRAL


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CTdsTongEnumVariables.f90 Целия файл

@@ -1,11 +1,11 @@
module CTdsTongEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
integer :: TdsTong = 0
public
type(VoidEventHandlerCollection) :: OnTdsTongChange
! type(VoidEventHandlerCollection) :: OnTdsTongChange
enum, bind(c)
enumerator TDS_TONG_BREAKOUT_END


+ 2
- 2
CSharp/OperationScenarios/UnitySignals/CTongEnumVariables.f90 Целия файл

@@ -1,5 +1,5 @@
module CTongEnumVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
use CLog4
implicit none
integer :: Tong = 0
@@ -7,7 +7,7 @@ module CTongEnumVariables
public
type(VoidEventHandlerCollection) :: OnTongChange
! type(VoidEventHandlerCollection) :: OnTongChange
enum, bind(c)
enumerator TONG_NEUTRAL


+ 34
- 34
CSharp/OperationScenarios/UnitySignals/UnitySignalsVariables.f90 Целия файл

@@ -1,43 +1,43 @@
module UnitySignalVariables
use CVoidEventHandlerCollection
use CIntegerEventHandlerCollection
! use CVoidEventHandlerCollection
! use CIntegerEventHandlerCollection

type:: UnitySignalsType
integer :: MudBucket = 0
type(VoidEventHandlerCollection) :: OnMudBucketChange
! type(VoidEventHandlerCollection) :: OnMudBucketChange
integer :: Elevator = 0
type(VoidEventHandlerCollection) :: OnElevatorChange
! type(VoidEventHandlerCollection) :: OnElevatorChange
integer :: FillupHead = 0
type(VoidEventHandlerCollection) :: OnFillupHeadChange
! type(VoidEventHandlerCollection) :: OnFillupHeadChange
integer :: Ibop = 0
type(VoidEventHandlerCollection) :: OnIbopChange
! type(VoidEventHandlerCollection) :: OnIbopChange
integer :: Kelly = 0
type(VoidEventHandlerCollection) :: OnKellyChange
! type(VoidEventHandlerCollection) :: OnKellyChange
integer :: MouseHole = 0
type(VoidEventHandlerCollection) :: OnMouseHoleChange
! type(VoidEventHandlerCollection) :: OnMouseHoleChange
integer :: OperationCondition = 0
type(VoidEventHandlerCollection) :: OnOperationConditionChange
type(IntegerEventHandlerCollection) :: OnOperationConditionChangeInt
! type(VoidEventHandlerCollection) :: OnOperationConditionChange
! !**type(IntegerEventHandlerCollection) :: OnOperationConditionChangeInt
integer :: SafetyValve = 0
type(VoidEventHandlerCollection) :: OnSafetyValveChange
! type(VoidEventHandlerCollection) :: OnSafetyValveChange
integer :: operation = 0
integer :: Slips = 0
integer :: Slips_S = 0
type(VoidEventHandlerCollection) :: OnSlipsChange
! type(VoidEventHandlerCollection) :: OnSlipsChange
integer :: Swing = 0
integer :: Swing_S = 0
type(VoidEventHandlerCollection) :: OnSwingChange
! type(VoidEventHandlerCollection) :: OnSwingChange
integer :: TdsBackupClamp = 0
type(VoidEventHandlerCollection) :: OnTdsBackupClampChange
! type(VoidEventHandlerCollection) :: OnTdsBackupClampChange
integer :: TdsSpine = 0
type(VoidEventHandlerCollection) :: OnTdsSpineChange
! type(VoidEventHandlerCollection) :: OnTdsSpineChange
integer :: TdsSwing = 0
type(VoidEventHandlerCollection) :: OnTdsSwingChange
! type(VoidEventHandlerCollection) :: OnTdsSwingChange
integer :: TdsTong = 0
type(VoidEventHandlerCollection) :: OnTdsTongChange
! type(VoidEventHandlerCollection) :: OnTdsTongChange
integer :: Tong = 0
integer :: Tong_S = 0
type(VoidEventHandlerCollection) :: OnTongChange
! type(VoidEventHandlerCollection) :: OnTongChange
end type UnitySignalsType
type(UnitySignalsType):: unitySignals

@@ -160,7 +160,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'Tong=', UnitySignals%Tong
#endif
call UnitySignals%OnTongChange%RunAll()
!**call UnitySignals%OnTongChange%RunAll()
end subroutine
integer function Get_Tong()
@@ -179,7 +179,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'TdsTong=', UnitySignals%TdsTong
#endif
call UnitySignals%OnTdsTongChange%RunAll()
!**call UnitySignals%OnTdsTongChange%RunAll()
end subroutine
integer function Get_TdsTong()
@@ -198,7 +198,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'TdsSwing=', UnitySignals%TdsSwing
#endif
call UnitySignals%OnTdsSwingChange%RunAll()
!**call UnitySignals%OnTdsSwingChange%RunAll()
end subroutine
integer function Get_TdsSwing()
@@ -217,7 +217,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'TdsSpine=', UnitySignals%TdsSpine
#endif
call UnitySignals%OnTdsSpineChange%RunAll()
!**call UnitySignals%OnTdsSpineChange%RunAll()
end subroutine
integer function Get_TdsSpine()
@@ -236,7 +236,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'TdsBackupClamp=', UnitySignals%TdsBackupClamp
#endif
call UnitySignals%OnTdsBackupClampChange%RunAll()
!**call UnitySignals%OnTdsBackupClampChange%RunAll()
end subroutine
integer function Get_TdsBackupClamp()
@@ -255,7 +255,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'Swing=', UnitySignals%Swing
#endif
call UnitySignals%OnSwingChange%RunAll()
!**call UnitySignals%OnSwingChange%RunAll()
end subroutine
integer function Get_Swing()
@@ -274,7 +274,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'Slips=', UnitySignals%Slips
#endif
call UnitySignals%OnSlipsChange%RunAll()
!**call UnitySignals%OnSlipsChange%RunAll()
end subroutine
integer function Get_Slips()
@@ -304,7 +304,7 @@ module UnitySignalVariables
print*, 'SafetyValve=SAFETY_VALVE_REMOVE'
endif
#endif
call UnitySignals%OnSafetyValveChange%RunAll()
!**call UnitySignals%OnSafetyValveChange%RunAll()
end subroutine
integer function Get_SafetyValve()
@@ -334,8 +334,8 @@ module UnitySignalVariables
#ifdef deb
print*, 'OperationCondition=', UnitySignals%OperationCondition
#endif
call UnitySignals%OnOperationConditionChange%RunAll()
call UnitySignals%OnOperationConditionChangeInt%RunAll(UnitySignals%OperationCondition)
!**call UnitySignals%OnOperationConditionChange%RunAll()
!**call UnitySignals%OnOperationConditionChangeInt%RunAll(UnitySignals%OperationCondition)
end subroutine
integer function Get_OperationCondition()
@@ -355,7 +355,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'MouseHole=', UnitySignals%MouseHole
#endif
call UnitySignals%OnMouseHoleChange%RunAll()
!**call UnitySignals%OnMouseHoleChange%RunAll()
end subroutine
integer function Get_MouseHole()
@@ -375,7 +375,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'Kelly=', UnitySignals%Kelly
#endif
call UnitySignals%OnKellyChange%RunAll()
!**call UnitySignals%OnKellyChange%RunAll()
end subroutine
integer function Get_Kelly()
@@ -394,7 +394,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'Ibop=', UnitySignals%Ibop
#endif
call UnitySignals%OnIbopChange%RunAll()
!**call UnitySignals%OnIbopChange%RunAll()
end subroutine
integer function Get_Ibop()
@@ -421,7 +421,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'FillupHead=', UnitySignals%FillupHead
#endif
call UnitySignals%OnFillupHeadChange%RunAll()
!**call UnitySignals%OnFillupHeadChange%RunAll()
end subroutine
integer function Get_FillupHead()
@@ -440,7 +440,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'Elevator=', UnitySignals%Elevator
#endif
call UnitySignals%OnElevatorChange%RunAll()
!**call UnitySignals%OnElevatorChange%RunAll()
end subroutine
integer function Get_Elevator()
@@ -466,7 +466,7 @@ module UnitySignalVariables
#ifdef deb
print*, 'MudBucket=', UnitySignals%MudBucket
#endif
call UnitySignals%OnMudBucketChange%RunAll()
!**call UnitySignals%OnMudBucketChange%RunAll()
end subroutine
integer function Get_MudBucket()


+ 6
- 6
CSharp/Problems/CBitProblemsVariables.f90 Целия файл

@@ -54,21 +54,21 @@ module CBitProblemsVariables
end subroutine
subroutine ChangePlugJets(status)
USE FricPressDropVars
USE FricPressDropVarsModule
implicit none
integer, intent (in) :: status
! if(associated(BitProblems%PlugJetsPtr)) call BitProblems%PlugJetsPtr(status)
if(status == Clear_StatusType) BitJetsPlugged = 0
if(status == Executed_StatusType) BitJetsPlugged = 1
if(status == Clear_StatusType) FricPressDropVars%BitJetsPlugged = 0
if(status == Executed_StatusType) FricPressDropVars%BitJetsPlugged = 1
endsubroutine
subroutine ChangeJetWashout(status)
USE FricPressDropVars
USE FricPressDropVarsModule
implicit none
integer, intent (in) :: status
! if(associated(BitProblems%JetWashoutPtr)) call BitProblems%JetWashoutPtr(status)
if(status == Clear_StatusType) BitJetsWashedOut = 0
if(status == Executed_StatusType) BitJetsWashedOut = 1
if(status == Clear_StatusType) FricPressDropVars%BitJetsWashedOut = 0
if(status == Executed_StatusType) FricPressDropVars%BitJetsWashedOut = 1
endsubroutine


+ 12
- 12
CSharp/Problems/CChokeProblemsVariables.f90 Целия файл

@@ -179,12 +179,12 @@ module CChokeProblemsVariables
endsubroutine
subroutine ChangeManualChoke1Plugged(status)
USE FricPressDropVars
USE FricPressDropVarsModule
implicit none
integer, intent (in) :: status
! if(associated(ManualChoke1PluggedPtr)) call ManualChoke1PluggedPtr(status)
if(status == Clear_StatusType) ManChoke1Plug = 0
if(status == Executed_StatusType) ManChoke1Plug = 1
if(status == Clear_StatusType) FricPressDropVars%ManChoke1Plug = 0
if(status == Executed_StatusType) FricPressDropVars%ManChoke1Plug = 1
endsubroutine
subroutine ChangeManualChoke1Fail(status)
@@ -196,25 +196,25 @@ module CChokeProblemsVariables
endsubroutine
subroutine ChangeManualChoke1Washout(status)
USE FricPressDropVars
USE FricPressDropVarsModule
use CChokeManifoldVariables
implicit none
integer, intent (in) :: status
! if(associated(ManualChoke1WashoutPtr)) call ManualChoke1WashoutPtr(status)
if(status == Clear_StatusType) ManChoke1Washout = 0
if(status == Executed_StatusType) ManChoke1Washout = 1
if(status == Clear_StatusType) FricPressDropVars%ManChoke1Washout = 0
if(status == Executed_StatusType) FricPressDropVars%ManChoke1Washout = 1
if(status == Clear_StatusType) ChokeManifold%LeftManChokeOnProblem = .false.
if(status == Executed_StatusType) ChokeManifold%LeftManChokeOnProblem = .true.
endsubroutine
subroutine ChangeManualChoke2Plugged(status)
USE FricPressDropVars
USE FricPressDropVarsModule
implicit none
integer, intent (in) :: status
! if(associated(ManualChoke2PluggedPtr)) call ManualChoke2PluggedPtr(status)
if(status == Clear_StatusType) ManChoke2Plug = 0
if(status == Executed_StatusType) ManChoke2Plug = 1
if(status == Clear_StatusType) FricPressDropVars%ManChoke2Plug = 0
if(status == Executed_StatusType) FricPressDropVars%ManChoke2Plug = 1
endsubroutine
subroutine ChangeManualChoke2Fail(status)
@@ -226,13 +226,13 @@ module CChokeProblemsVariables
endsubroutine
subroutine ChangeManualChoke2Washout(status)
USE FricPressDropVars
USE FricPressDropVarsModule
use CChokeManifoldVariables
implicit none
integer, intent (in) :: status
! if(associated(ManualChoke2WashoutPtr)) call ManualChoke2WashoutPtr(status)
if(status == Clear_StatusType) ManChoke2Washout = 0
if(status == Executed_StatusType) ManChoke2Washout = 1
if(status == Clear_StatusType) FricPressDropVars%ManChoke2Washout = 0
if(status == Executed_StatusType) FricPressDropVars%ManChoke2Washout = 1
if(status == Clear_StatusType) ChokeManifold%RightManChokeOnProblem = .false.
if(status == Executed_StatusType) ChokeManifold%RightManChokeOnProblem = .true.


+ 6
- 6
CSharp/Problems/CGaugesProblemsVariables.f90 Целия файл

@@ -215,12 +215,12 @@ module CGaugesProblemsVariables
endsubroutine
subroutine ChangeCasingPressure(status)
USE FricPressDropVars
USE FricPressDropVarsModule
implicit none
integer, intent (in) :: status
! if(associated(CasingPressurePtr)) call CasingPressurePtr(status)
if(status == Clear_StatusType) CasingPressure_DataDisplayMalF = 0
if(status == Executed_StatusType) CasingPressure_DataDisplayMalF = 1
if(status == Clear_StatusType) FricPressDropVars%CasingPressure_DataDisplayMalF = 0
if(status == Executed_StatusType) FricPressDropVars%CasingPressure_DataDisplayMalF = 1
endsubroutine
subroutine ChangePump1Strokes(status)
@@ -373,12 +373,12 @@ module CGaugesProblemsVariables
endsubroutine
subroutine ChangeCasingPressure2(status)
use FricPressDropVars
USE FricPressDropVarsModule
implicit none
integer, intent (in) :: status
! if(associated(CasingPressure2Ptr)) call CasingPressure2Ptr(status)
if(status == Clear_StatusType) CasingPressure_ChokeMalF = 0
if(status == Executed_StatusType) CasingPressure_ChokeMalF = 1
if(status == Clear_StatusType) FricPressDropVars%CasingPressure_ChokeMalF = 0
if(status == Executed_StatusType) FricPressDropVars%CasingPressure_ChokeMalF = 1
endsubroutine


+ 5
- 5
CSharp/StudentStation/CStudentStationVariables.f90 Целия файл

@@ -1,5 +1,5 @@
module CStudentStationVariables
use CVoidEventHandlerCollection
! use CVoidEventHandlerCollection
implicit none
public
@@ -11,12 +11,12 @@ module CStudentStationVariables
logical :: TapSelector
end type StudentStationType
type(StudentStationType)::StudentStation
! type(VoidEventHandlerCollection) :: OnStudentStation%FillupHeadInstallationPress
! type(VoidEventHandlerCollection) :: OnFillupHeadRemovePress
! ! type(VoidEventHandlerCollection) :: OnStudentStation%FillupHeadInstallationPress
! ! type(VoidEventHandlerCollection) :: OnFillupHeadRemovePress
! type(VoidEventHandlerCollection) :: OnMudBoxInstallationPress
! type(VoidEventHandlerCollection) ::
! ! type(VoidEventHandlerCollection) :: OnMudBoxInstallationPress
! ! type(VoidEventHandlerCollection) ::



+ 0
- 1211
CSimulationVariables.f90
Файловите разлики са ограничени, защото са твърде много
Целия файл


+ 4
- 4
Equipments/BopStack/ANNULAR.f90 Целия файл

@@ -1,7 +1,7 @@
SUBROUTINE ANNULAR_SUB1
USE VARIABLES
USE CBopControlPanelVariables
USE PressureDisplayVARIABLES
use PressureDisplayVARIABLESModule
USE CEquipmentsConstants
USE CBopStackVariables
@@ -125,7 +125,7 @@ SUBROUTINE ANNULAR_SUB1

if (RAM(1)%FourwayValve == 1 .and. Annular%Pannular_reg>AnnularComputational%AnnularMovingPressure .and. RamLine%P_ACC>BopStackAcc%acc_MinPressure &
.and. (Annular%Annular_closed==0 .or. (Annular%Annular_closed==1 .and.PressureGauges(2) <=100.0) .or. (Annular%Annular_closed==1 .and.PressureGauges(2)>100.0 .and. Annular%Pannular_reg>=AnnularComputational%AnnularSealingPressure))) then ! 1: Open , 0: Close
.and. (Annular%Annular_closed==0 .or. (Annular%Annular_closed==1 .and. PressureDisplayVARIABLES%PressureGauges(2) <=100.0) .or. (Annular%Annular_closed==1 .and. PressureDisplayVARIABLES%PressureGauges(2)>100.0 .and. Annular%Pannular_reg>=AnnularComputational%AnnularSealingPressure))) then ! 1: Open , 0: Close
!write(*,*) 'open 2'
RAM(1)%FourwayValve = 0
@@ -196,7 +196,7 @@ end if
SUBROUTINE ANNULAR_SUB2
USE VARIABLES
USE PressureDisplayVARIABLES
use PressureDisplayVARIABLESModule
USE CBopControlPanelVariables
USE CEquipmentsConstants
USE CBopStackVariables
@@ -314,7 +314,7 @@ SUBROUTINE ANNULAR_SUB2
if (RAM(1)%FourwayValve == 1 .and. Annular%Pannular_reg>AnnularComputational%AnnularMovingPressure &
.and. (Annular%Annular_closed==0 .or. (Annular%Annular_closed==1 .and.PressureGauges(2) <=100.0) .or. (Annular%Annular_closed==1 .and.PressureGauges(2)>100.0 .and. Annular%Pannular_reg>=AnnularComputational%AnnularSealingPressure))) then
.and. (Annular%Annular_closed==0 .or. (Annular%Annular_closed==1 .and. PressureDisplayVARIABLES%PressureGauges(2) <=100.0) .or. (Annular%Annular_closed==1 .and. PressureDisplayVARIABLES%PressureGauges(2)>100.0 .and. Annular%Pannular_reg>=AnnularComputational%AnnularSealingPressure))) then
!write(*,*) 'open 4'
RAM(1)%FourwayValve = 0


+ 0
- 11
Equipments/ChokeControl/ChokeStartup.f90 Целия файл

@@ -123,15 +123,4 @@ AirPumpLine%alpha_Pdownstrem=AirPumpLine%Pdownstrem
AirPumpLine%alpha_diffpair=0
AirPumpLine%alpha_lossesair=0












end

+ 148
- 0
Equipments/MudSystem-old/Circulation_Code_Select.f90 Целия файл

@@ -0,0 +1,148 @@
subroutine CirculationCodeSelect ! is called in subroutine Fluid_Flow_Solver
use KickVARIABLESModule
Use MudSystemVARIABLES
USE TD_DrillStemComponents
Use CUnityInputs
Use CUnityOutputs
USE CKellyConnectionEnumVariables
use UTUBEVARSModule
use sROP_Variables
use PressureDisplayVARIABLESModule

implicit none
Integer i,KickNumber
!NewInfluxNumber = NoGasPocket
MudSystem%Flow_timeCounter= MudSystem%Flow_timeCounter+1
!if (ChokePanelStrokeResetSwitch == 1) then
! Flow_timeCounter= 0
!endif
!write(*,*) 'Flow_timeCounter' , Flow_timeCounter
!===========================Shoe Lost===============================

call ShoeLostSub
!===================================================================
MudSystem%iLoc= 1 ! will be changed in KickFlux and Migration or Pump and TripIn (save OP Mud data)
!KickMigration_2SideBit= .false.
Call Set_FlowPipeDisconnect(.false.)
Call Set_FlowKellyDisconnect(.false.)
call ElementsCreation

if (MUD(8)%Q > 0.0) call FillingWell_By_BellNipple ! Filling Well Through BellNipple ( Path j11 )
!if (MUD(10)%Q > 0.0) call FillingWell_By_Pumps ! Filling Well Through Pumps ( Path j19 )
!write(*,*) 'TD_RemoveVolume,Get_JointConnectionPossible=' , TD_RemoveVolume,Get_JointConnectionPossible()
if (TD_Vol%RemoveVolume > 0.) call DisconnectingPipe !! .and. Get_JointConnectionPossible() == .false.) call DisconnectingPipe
IF (KickFlux .AND. NOT(KickOffBottom)) THEN
call Kick_Influx
endif
IF ( MudSystem%NewInfluxNumber > 0 ) THEN
!write(*,*) 'KickOffBottom , ROP=' , KickOffBottom , ROP_Bit%RateOfPenetration
call Kick_Migration
endif
! ============================ must be after migration ==============================

DO KickNumber= MudSystem%NewInfluxNumber-NoGasPocket+1 , MudSystem%NewInfluxNumber
! FINDING NEW KICK LOCATIONS:
MudSystem%Ann_KickLoc= 0
MudSystem%Op_KickLoc= 0
MudSystem%ChokeLine_KickLoc= 0
do i = 1, MudSystem%Ann_MudOrKick%Length ()
if (MudSystem%Ann_MudOrKick%Array(i) == KickNumber) then
MudSystem%Ann_KickLoc = i
exit
endif
end do

do i = 1, MudSystem%Op_MudOrKick%Length ()
if (MudSystem%Op_MudOrKick%Array(i) == KickNumber) then
MudSystem%Op_KickLoc = i
exit
endif
end do
do i = 1, MudSystem%ChokeLine_MudOrKick%Length ()
if (MudSystem%ChokeLine_MudOrKick%Array(i) == KickNumber) then
MudSystem%ChokeLine_KickLoc = i
exit
endif
end do
! ============================ must be after migration-end ===========================
IF (ALLOCATED(GasPocketWeight%Array) .and. KickNumber == MudSystem%NewInfluxNumber .AND. NOT(KickOffBottom) .AND. MudSystem%WellHeadIsOpen) THEN

cycle
ELSE IF (ALLOCATED(GasPocketWeight%Array)) THEN
if (((GasPocketDeltaVol%Array(MudSystem%NewInfluxNumber - KickNumber + 1) > 0.0 .AND. MudSystem%WellHeadIsOpen) .or. MudSystem%Kickexpansion_DueToMudLost) ) call Kick_Expansion
if ((GasPocketDeltaVol%Array(MudSystem%NewInfluxNumber - KickNumber + 1) < 0.0 ) .OR. MudSystem%WellHeadIsOpen == .FALSE.) CALL Kick_Contraction

ENDIF
ENDDO
MudSystem%KickNumber = KickNumber
MudSystem%LostInTripOutIsDone= .false.
if( MudSystem%DeltaVolumeOp >= 0.0 .and. Get_KellyConnection()==KELLY_CONNECTION_STRING) then
!write(*,*) 'DeltaVolumeOp=' , DeltaVolumeOp
call Pump_and_TripIn
elseif (MudSystem%DeltaVolumeOp < 0.0) then
! when we have Utube and tripping out simultaneously, it uses "TripOut_and_Pump" subroutine, and then Utube code is done
! "Utube" and "Pump_and_TripIn" subroutines, not to be used simultaneously because "Utube" code supports trip in
call TripOut_and_Pump
endif
MudSystem%WellOutletDensity= MudSystem%Ann_Density%Last() ! (ppg) used in MudSystem
if (MUD(4)%Q > 0.) then ! ( j4 > 0 ) ! THIS CIRCULATION CODE IS JUST FOR LINE J4, AND NOT NEEDED FOR LINE J18
call ChokeLineMud
endif
call Choke_GasSound
!WRITE(*,*) 'CIRCU-Ann_Saved_MudDischarged_Volume' , Ann_Saved_MudDischarged_Volume
!****Utube is called in Plot Subroutine****
Call Instructor_CirculationMud_Edit
call PlotFinalMudElements
MudSystem%MudChecked= .true.
MudSystem%UtubePossibility= .true.
!WRITE(*,*) '***********************************************************************'
end subroutine CirculationCodeSelect

+ 186
- 0
Equipments/MudSystem-old/Deallocate_Normal_Circulation.f90 Целия файл

@@ -0,0 +1,186 @@
subroutine DEALLOCATE_ARRAYS_NormalCirculation() ! is called in module FluidFlowMain
USE MudSystemVARIABLES
implicit none


if(allocated(MudSystem%Xstart_PipeSection)) deallocate(MudSystem%Xstart_PipeSection)
if(allocated(MudSystem%Xend_PipeSection)) deallocate(MudSystem%Xend_PipeSection)
if(allocated(MudSystem%PipeSection_VolumeCapacity)) deallocate(MudSystem%PipeSection_VolumeCapacity)
if(allocated(MudSystem%Area_PipeSectionFt)) deallocate(MudSystem%Area_PipeSectionFt)
if(allocated(MudSystem%OD_PipeSectionInch)) deallocate(MudSystem%OD_PipeSectionInch)
if(allocated(MudSystem%ID_PipeSectionInch)) deallocate(MudSystem%ID_PipeSectionInch)
if(allocated(MudSystem%Xstart_OpSection)) deallocate(MudSystem%Xstart_OpSection)
if(allocated(MudSystem%Xend_OpSection)) deallocate(MudSystem%Xend_OpSection)
if(allocated(MudSystem%Area_OpSectionFt)) deallocate(MudSystem%Area_OpSectionFt)
if(allocated(MudSystem%OD_OpSectionInch)) deallocate(MudSystem%OD_OpSectionInch)
if(allocated(MudSystem%ID_OpSectionInch)) deallocate(MudSystem%ID_OpSectionInch)
if(allocated(MudSystem%OpSection_VolumeCapacity)) deallocate(MudSystem%OpSection_VolumeCapacity)
if(allocated(MudSystem%GeoTypeOp)) deallocate(MudSystem%GeoTypeOp)
if(allocated(MudSystem%GeoType)) deallocate(MudSystem%GeoType)


call MudSystem%Hz_MudDischarged_Volume%Empty()
call MudSystem%Hz_Mud_Backhead_X%Empty()
call MudSystem%Hz_Mud_Backhead_section%Empty()
call MudSystem%Hz_Mud_Forehead_X%Empty()
call MudSystem%Hz_Mud_Forehead_section%Empty()
call MudSystem%Hz_Density%Empty()
call MudSystem%Hz_RemainedVolume_in_LastSection%Empty()
call MudSystem%Hz_EmptyVolume_inBackheadLocation%Empty()
call MudSystem%Hz_MudOrKick%Empty()
call MudSystem%St_MudDischarged_Volume%Empty()
call MudSystem%St_Mud_Backhead_X%Empty()
call MudSystem%St_Mud_Backhead_section%Empty()
call MudSystem%St_Mud_Forehead_X%Empty()
call MudSystem%St_Mud_Forehead_section%Empty()
call MudSystem%St_Density%Empty()
call MudSystem%St_RemainedVolume_in_LastSection%Empty()
call MudSystem%St_EmptyVolume_inBackheadLocation%Empty()
call MudSystem%St_MudOrKick%Empty()
call MudSystem%Ann_MudDischarged_Volume%Empty()
call MudSystem%Ann_Mud_Backhead_X%Empty()
call MudSystem%Ann_Mud_Backhead_section%Empty()
call MudSystem%Ann_Mud_Forehead_X%Empty()
call MudSystem%Ann_Mud_Forehead_section%Empty()
call MudSystem%Ann_Density%Empty()
call MudSystem%Ann_RemainedVolume_in_LastSection%Empty()
call MudSystem%Ann_EmptyVolume_inBackheadLocation%Empty()
call MudSystem%Ann_MudOrKick%Empty()
call MudSystem%Ann_CuttingMud%Empty()
call MudSystem%Op_MudDischarged_Volume%Empty()
call MudSystem%Op_Mud_Backhead_X%Empty()
call MudSystem%Op_Mud_Backhead_section%Empty()
call MudSystem%Op_Mud_Forehead_X%Empty()
call MudSystem%Op_Mud_Forehead_section%Empty()
call MudSystem%Op_Density%Empty()
call MudSystem%Op_RemainedVolume_in_LastSection%Empty()
call MudSystem%Op_EmptyVolume_inBackheadLocation%Empty()
call MudSystem%Op_MudOrKick%Empty()

call MudSystem%ChokeLine_MudDischarged_Volume%Empty()
call MudSystem%ChokeLine_Mud_Backhead_X%Empty()
call MudSystem%ChokeLine_Mud_Backhead_section%Empty()
call MudSystem%ChokeLine_Mud_Forehead_X%Empty()
call MudSystem%ChokeLine_Mud_Forehead_section%Empty()
call MudSystem%ChokeLine_Density%Empty()
call MudSystem%ChokeLine_RemainedVolume_in_LastSection%Empty()
call MudSystem%ChokeLine_EmptyVolume_inBackheadLocation%Empty()
call MudSystem%ChokeLine_MudOrKick%Empty()
call MudSystem%Xend_MudElement%Empty()
call MudSystem%Xstart_MudElement%Empty()
call MudSystem%TVDend_MudElement%Empty()
call MudSystem%TVDstart_MudElement%Empty()
call MudSystem%Density_MudElement%Empty()
call MudSystem%MudGeoType%Empty()
call MudSystem%PipeID_MudElement%Empty()
call MudSystem%PipeOD_MudElement%Empty()
call MudSystem%MudType_MudElement%Empty()
call MudSystem%Xend_OpMudElement%Empty()
call MudSystem%Xstart_OpMudElement%Empty()
call MudSystem%TVDend_OpMudElement%Empty()
call MudSystem%TVDstart_OpMudElement%Empty()
call MudSystem%Density_OpMudElement%Empty()
call MudSystem%PipeID_OpMudElement%Empty()
call MudSystem%PipeOD_OpMudElement%Empty()
call MudSystem%MudTypeOp_MudElement%Empty()
end subroutine
subroutine RemoveAnnulusMudArrays(ilocal)
USE MudSystemVARIABLES
implicit none
INTEGER :: ilocal
call MudSystem%Ann_MudDischarged_Volume%Remove (ilocal)
call MudSystem%Ann_Mud_Backhead_X%Remove (ilocal)
call MudSystem%Ann_Mud_Backhead_section%Remove (ilocal)
call MudSystem%Ann_Mud_Forehead_X%Remove (ilocal)
call MudSystem%Ann_Mud_Forehead_section%Remove (ilocal)
call MudSystem%Ann_Density%Remove (ilocal)
call MudSystem%Ann_RemainedVolume_in_LastSection%Remove (ilocal)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%Remove (ilocal)
call MudSystem%Ann_MudOrKick%Remove (ilocal)
call MudSystem%Ann_CuttingMud%Remove (ilocal)
end subroutine
subroutine RemoveStringMudArrays(ilocal)
USE MudSystemVARIABLES
implicit none
INTEGER :: ilocal
call MudSystem%St_MudDischarged_Volume%Remove (ilocal)
call MudSystem%St_Mud_Backhead_X%Remove (ilocal)
call MudSystem%St_Mud_Backhead_section%Remove (ilocal)
call MudSystem%St_Mud_Forehead_X%Remove (ilocal)
call MudSystem%St_Mud_Forehead_section%Remove (ilocal)
call MudSystem%St_Density%Remove (ilocal)
call MudSystem%St_RemainedVolume_in_LastSection%Remove (ilocal)
call MudSystem%St_EmptyVolume_inBackheadLocation%Remove (ilocal)
call MudSystem%St_MudOrKick%Remove (ilocal)
end subroutine
subroutine RemoveOpMudArrays(ilocal)
USE MudSystemVARIABLES
implicit none
INTEGER :: ilocal
call MudSystem%Op_MudDischarged_Volume%Remove (ilocal)
call MudSystem%Op_Mud_Backhead_X%Remove (ilocal)
call MudSystem%Op_Mud_Backhead_section%Remove (ilocal)
call MudSystem%Op_Mud_Forehead_X%Remove (ilocal)
call MudSystem%Op_Mud_Forehead_section%Remove (ilocal)
call MudSystem%Op_Density%Remove (ilocal)
call MudSystem%Op_RemainedVolume_in_LastSection%Remove (ilocal)
call MudSystem%Op_EmptyVolume_inBackheadLocation%Remove (ilocal)
call MudSystem%Op_MudOrKick%Remove (ilocal)
end subroutine
subroutine RemoveHzMudArrays(ilocal)
USE MudSystemVARIABLES
implicit none
INTEGER :: ilocal
call MudSystem%Hz_MudDischarged_Volume%Remove (ilocal)
call MudSystem%Hz_Mud_Backhead_X%Remove (ilocal)
call MudSystem%Hz_Mud_Backhead_section%Remove (ilocal)
call MudSystem%Hz_Mud_Forehead_X%Remove (ilocal)
call MudSystem%Hz_Mud_Forehead_section%Remove (ilocal)
call MudSystem%Hz_Density%Remove (ilocal)
call MudSystem%Hz_RemainedVolume_in_LastSection%Remove (ilocal)
call MudSystem%Hz_EmptyVolume_inBackheadLocation%Remove (ilocal)
call MudSystem%Hz_MudOrKick%Remove (ilocal)
end subroutine

+ 108
- 0
Equipments/MudSystem-old/Disconnecting_Pipe.f90 Целия файл

@@ -0,0 +1,108 @@
subroutine DisconnectingPipe ! is called in subroutine CirculationCodeSelect
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
use CDrillWatchVariables
! !use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
use KickVARIABLESModule
USE TD_DrillStemComponents
Use CKellyConnectionEnumVariables
Use CUnityOutputs
USE CManifolds
implicit none
Real(8) ExcessMudVolume, ExcessMudVolume_Remained
write(*,*) 'DisconnectingPipe'
!TD_RemoveVolume= TD_RemoveVolume* 7.48051948 ! ft^3 to gal

ExcessMudVolume= sum(MudSystem%St_MudDischarged_Volume%Array(:)) - sum(MudSystem%PipeSection_VolumeCapacity(2:F_Counts%StringIntervalCounts))
! ======if(ExcessMudVolume <= 0.) No Modification Needed Because Removed Pipe was Empty=====
if (Get_KellyConnection() == KELLY_CONNECTION_NOTHING .and. Manifold%Valve(56)%Status == .False.) ExcessMudVolume= 0.d0 !Valve(56)%Status == .False. :: safety valve installed
if (ExcessMudVolume > 0.) then
if ( Manifold%Valve(53)%Status == .true. ) then
MudSystem%MudBucketVolume= ExcessMudVolume
else
MudSystem%MudBucketVolume= 0.0
endif
!========================Flow Disconnect Unity Input Signals=================
!if ( Get_JointConnectionPossible() == .false. ) then
if (Get_KellyConnection() == KELLY_CONNECTION_NOTHING) then
Call Set_FlowKellyDisconnect(.true.)
else
Call Set_FlowPipeDisconnect(.true.)
endif
!endif
!====================Flow Disconnect Unity Input Signals-End=================
!========================Disconnecting Pipe from the String=================
ExcessMudVolume_Remained= ExcessMudVolume ! ft^3 to gal
imud=1
Do
if(MudSystem%St_MudDischarged_Volume%Array(imud) < ExcessMudVolume_Remained) then
ExcessMudVolume_Remained= ExcessMudVolume_Remained- MudSystem%St_MudDischarged_Volume%Array(imud)
call MudSystem%St_MudDischarged_Volume%Remove (imud)
call MudSystem%St_Mud_Backhead_X%Remove (imud)
call MudSystem%St_Mud_Backhead_section%Remove (imud)
call MudSystem%St_Mud_Forehead_X%Remove (imud)
call MudSystem%St_Mud_Forehead_section%Remove (imud)
call MudSystem%St_Density%Remove (imud)
call MudSystem%St_RemainedVolume_in_LastSection%Remove (imud)
call MudSystem%St_EmptyVolume_inBackheadLocation%Remove (imud)
call MudSystem%St_MudOrKick%Remove (imud)
elseif(MudSystem%St_MudDischarged_Volume%Array(imud) > ExcessMudVolume_Remained) then
MudSystem%St_MudDischarged_Volume%Array(imud)= MudSystem%St_MudDischarged_Volume%Array(imud)- ExcessMudVolume_Remained
exit
else !(St_MudDischarged_Volume%Array(imud) == ExcessMudVolume_Remained)
call MudSystem%St_MudDischarged_Volume%Remove (imud)
call MudSystem%St_Mud_Backhead_X%Remove (imud)
call MudSystem%St_Mud_Backhead_section%Remove (imud)
call MudSystem%St_Mud_Forehead_X%Remove (imud)
call MudSystem%St_Mud_Forehead_section%Remove (imud)
call MudSystem%St_Density%Remove (imud)
call MudSystem%St_RemainedVolume_in_LastSection%Remove (imud)
call MudSystem%St_EmptyVolume_inBackheadLocation%Remove (imud)
call MudSystem%St_MudOrKick%Remove (imud)
exit
endif
enddo
!=================Disconnecting Pipe from the String - End===================
endif
end subroutine DisconnectingPipe

+ 274
- 0
Equipments/MudSystem-old/Elements_Creation.f90 Целия файл

@@ -0,0 +1,274 @@
subroutine ElementsCreation ! is called in subroutine Fluid_Flow_Solver
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
!USE CHOKEVARIABLES
!USE CDataDisplayConsoleVariables , StandPipePressureDataDisplay=>StandPipePressure
!use CManifolds
use CDrillWatchVariables
!use CHOKEVARIABLES
!use CChokeManifoldVariables
! !use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
use KickVARIABLESModule
use CError
implicit none
integer jelement, jmud, jsection,ielement,i
integer jopelement,jopmud,jopsection,iisection,isection,OpSection
!===========================================================WELL============================================================
!===========================================================WELL============================================================

if(allocated(MudSystem%Xstart_PipeSection)) deallocate(MudSystem%Xstart_PipeSection)
if(allocated(MudSystem%Xend_PipeSection)) deallocate(MudSystem%Xend_PipeSection)
if(allocated(MudSystem%PipeSection_VolumeCapacity)) deallocate(MudSystem%PipeSection_VolumeCapacity)
if(allocated(MudSystem%Area_PipeSectionFt)) deallocate(MudSystem%Area_PipeSectionFt)
if(allocated(MudSystem%GeoType)) deallocate(MudSystem%GeoType)
if(allocated(MudSystem%OD_PipeSectionInch)) deallocate(MudSystem%OD_PipeSectionInch)
if(allocated(MudSystem%ID_PipeSectionInch)) deallocate(MudSystem%ID_PipeSectionInch)
if(allocated(MudSystem%Angle_PipeSection)) deallocate(MudSystem%Angle_PipeSection)
if(allocated(MudSystem%Xstart_OpSection)) deallocate(MudSystem%Xstart_OpSection)
if(allocated(MudSystem%Xend_OpSection)) deallocate(MudSystem%Xend_OpSection)
if(allocated(MudSystem%OpSection_VolumeCapacity)) deallocate(MudSystem%OpSection_VolumeCapacity)
if(allocated(MudSystem%Area_OpSectionFt)) deallocate(MudSystem%Area_OpSectionFt)
if(allocated(MudSystem%GeoTypeOp)) deallocate(MudSystem%GeoTypeOp)
if(allocated(MudSystem%OD_OpSectionInch)) deallocate(MudSystem%OD_OpSectionInch)
if(allocated(MudSystem%ID_OpSectionInch)) deallocate(MudSystem%ID_OpSectionInch)
if(allocated(MudSystem%Angle_OpSection)) deallocate(MudSystem%Angle_OpSection)


ALLOCATE (MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts),MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts) &
,MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts),MudSystem%Area_PipeSectionFt(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts), &
MudSystem%GeoType(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts),MudSystem%OD_PipeSectionInch(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts),MudSystem%ID_PipeSectionInch(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts))


ALLOCATE (MudSystem%Xstart_OpSection(F_Counts%BottomHoleIntervalCounts),MudSystem%Xend_OpSection(F_Counts%BottomHoleIntervalCounts) &
,MudSystem%OpSection_VolumeCapacity(F_Counts%BottomHoleIntervalCounts),MudSystem%Area_OpSectionFt(F_Counts%BottomHoleIntervalCounts), &
MudSystem%GeoTypeOp(F_Counts%BottomHoleIntervalCounts),MudSystem%OD_OpSectionInch(F_Counts%BottomHoleIntervalCounts),MudSystem%ID_OpSectionInch(F_Counts%BottomHoleIntervalCounts))

MudSystem%OpSection=0
MudSystem%isection=0

DO iisection=1, F_Counts%IntervalsTotalCounts
IF (F_Interval(iisection)%GeoType == 1) THEN
MudSystem%OpSection= MudSystem%OpSection+1
MudSystem%Xstart_OpSection(MudSystem%OpSection)= (F_Interval(iisection)%StartDepth)
MudSystem%Xend_OpSection(MudSystem%OpSection)= (F_Interval(iisection)%EndDepth)
MudSystem%Area_OpSectionFt(MudSystem%OpSection)= PII*((F_Interval(iisection)%OD/12.0d0)**2-(F_Interval(iisection)%ID/12.0d0)**2)/4.0d0 !D(in), AREA(ft^2)
MudSystem%OD_OpSectionInch(MudSystem%OpSection)= (F_Interval(iisection)%OD)
MudSystem%ID_OpSectionInch(MudSystem%OpSection)= (F_Interval(iisection)%ID) !REAL(F_Interval(iisection)%Volume)
MudSystem%GeoTypeOp(MudSystem%OpSection)= F_Interval(iisection)%GeoType ! niaz nist ehtemalan
!Angle_OpSection(OpSection)= F_Interval(iisection)%Angle
!write(*,*) 'iisection=' , iisection
!write(*,*) 'StartDepth=' , F_Interval(iisection)%StartDepth
!write(*,*) 'EndDepth=' , F_Interval(iisection)%EndDepth
!write(*,*) 'OD=' , F_Interval(iisection)%OD
!write(*,*) 'ID=' , F_Interval(iisection)%ID
ELSE
MudSystem%isection= MudSystem%isection+1
MudSystem%Xstart_PipeSection(MudSystem%isection)= (F_Interval(iisection)%StartDepth)
!write(*,*) 'F_Interval(iisection)%StartDepth=' , F_Interval(iisection)%StartDepth
MudSystem%Xend_PipeSection(MudSystem%isection)= (F_Interval(iisection)%EndDepth)
!write(*,*) 'F_Interval(iisection)%EndDepth=' , F_Interval(iisection)%EndDepth
MudSystem%OD_PipeSectionInch(MudSystem%isection)= (F_Interval(iisection)%OD)
MudSystem%Area_PipeSectionFt(MudSystem%isection)= PII*((F_Interval(iisection)%OD/12.0d0)**2-(F_Interval(iisection)%ID/12.0d0)**2)/4.0d0 !D(in), AREA(ft^2)
MudSystem%ID_PipeSectionInch(MudSystem%isection)= (F_Interval(iisection)%ID)
!PipeSection_VolumeCapacity(isection)= Area_PipeSectionFt(isection)* ABS(Xend_PipeSection(isection)-Xstart_PipeSection(isection))* 7.48051948 !REAL(F_Interval(iisection)%Volume) ! (gal)
MudSystem%GeoType(MudSystem%isection)= F_Interval(iisection)%GeoType
!Angle_PipeSection(isection)= F_Interval(iisection)%Angle
ENDIF
ENDDO


call MudSystem%Xstart_MudElement%Empty()
call MudSystem%Xstart_MudElement%Add(MudSystem%Xstart_PipeSection(1))
call MudSystem%Xstart_OpMudElement%Empty()
call MudSystem%Xstart_OpMudElement%Add(MudSystem%Xstart_OpSection(1))
call MudSystem%TVDstart_MudElement%Empty()
call TVD_Calculator(MudSystem%Xstart_PipeSection(1),MudSystem%MudCircVerticalDepth)
call MudSystem%TVDstart_MudElement%Add(MudSystem%MudCircVerticalDepth)
call MudSystem%TVDstart_OpMudElement%Empty()
call TVD_Calculator(MudSystem%Xstart_OpSection(1),MudSystem%MudCircVerticalDepth)
call MudSystem%TVDstart_OpMudElement%Add(MudSystem%MudCircVerticalDepth)
MudSystem%NoPipeSections= MudSystem%isection ! sections in string and annulus(GeoType 0 & 2)

DO OpSection= 1,F_Counts%BottomHoleIntervalCounts
MudSystem%OpSection_VolumeCapacity(OpSection)= MudSystem%Area_OpSectionFt(OpSection)* ABS(MudSystem%Xend_OpSection(OpSection)-MudSystem%Xstart_OpSection(OpSection))* 7.48051948d0 !REAL(F_Interval(iisection)%Volume)
ENDDO
MudSystem%OpSection=OpSection
DO isection= 1,MudSystem%NoPipeSections
MudSystem%PipeSection_VolumeCapacity(isection)= MudSystem%Area_PipeSectionFt(isection)* ABS(MudSystem%Xend_PipeSection(isection)-MudSystem%Xstart_PipeSection(isection))* 7.48051948d0 !REAL(F_Interval(iisection)%Volume) ! (gal)
ENDDO
MudSystem%isection = isection
!types: Mud= 0 Kick=1

!===========================================
if (MudSystem%FirstMudSet==0) then
call MudSystem%Hz_MudDischarged_Volume%AddToFirst(MudSystem%PipeSection_VolumeCapacity(1)) !startup initial
call MudSystem%Hz_Mud_Backhead_X%AddToFirst (MudSystem%Xstart_PipeSection(1))
call MudSystem%Hz_Mud_Backhead_section%AddToFirst (1)
call MudSystem%Hz_Mud_Forehead_X%AddToFirst (MudSystem%Xend_PipeSection(1))
call MudSystem%Hz_Mud_Forehead_section%AddToFirst (1)
call MudSystem%Hz_Density%AddToFirst (MudProperties%ActiveDensity) ! initial(ppg)
call MudSystem%Hz_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
call MudSystem%Hz_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
call MudSystem%Hz_MudOrKick%AddToFirst (0)
call MudSystem%St_MudDischarged_Volume%AddToFirst(sum(MudSystem%PipeSection_VolumeCapacity(2:F_Counts%StringIntervalCounts))) !startup initial
call MudSystem%St_Mud_Backhead_X%AddToFirst (MudSystem%Xstart_PipeSection(2))
call MudSystem%St_Mud_Backhead_section%AddToFirst (2)
call MudSystem%St_Mud_Forehead_X%AddToFirst (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts))
call MudSystem%St_Mud_Forehead_section%AddToFirst (F_Counts%StringIntervalCounts)
call MudSystem%St_Density%AddToFirst (MudProperties%ActiveDensity) ! initial(ppg)
call MudSystem%St_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
call MudSystem%St_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
call MudSystem%St_MudOrKick%AddToFirst (0)
call MudSystem%Ann_MudDischarged_Volume%AddToFirst(sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections)))
call MudSystem%Ann_Mud_Backhead_X%AddToFirst (MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts+1))
call MudSystem%Ann_Mud_Backhead_section%AddToFirst (F_Counts%StringIntervalCounts+1)
call MudSystem%Ann_Mud_Forehead_X%AddToFirst (MudSystem%Xend_PipeSection(MudSystem%NoPipeSections))
call MudSystem%Ann_Mud_Forehead_section%AddToFirst (MudSystem%NoPipeSections)
call MudSystem%Ann_Density%AddToFirst (MudProperties%ActiveDensity) ! initial(ppg)
call MudSystem%Ann_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
call MudSystem%Ann_MudOrKick%AddToFirst (0)
call MudSystem%Ann_CuttingMud%AddToFirst (0)
MudSystem%OldPosition= MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)
MudSystem%OldAnnulusCapacity= sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections))
call MudSystem%ChokeLine_MudDischarged_Volume%AddToFirst(MudSystem%ChokeLine_VolumeCapacity)
call MudSystem%ChokeLine_Mud_Backhead_X%AddToFirst (0.0d0)
call MudSystem%ChokeLine_Mud_Backhead_section%AddToFirst (1)
call MudSystem%ChokeLine_Mud_Forehead_X%AddToFirst (BopStackSpecification%ChokeLineLength)
call MudSystem%ChokeLine_Mud_Forehead_section%AddToFirst (1)
call MudSystem%ChokeLine_Density%AddToFirst (MudProperties%ActiveDensity) ! initial(ppg)
call MudSystem%ChokeLine_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
call MudSystem%ChokeLine_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
call MudSystem%ChokeLine_MudOrKick%AddToFirst (0)

call MudSystem%Op_MudDischarged_Volume%AddToFirst (sum(MudSystem%OpSection_VolumeCapacity(1:F_Counts%BottomHoleIntervalCounts)))
call MudSystem%Op_Mud_Backhead_X%AddToFirst (MudSystem%Xstart_OpSection(1))
call MudSystem%Op_Mud_Backhead_section%AddToFirst (1)
call MudSystem%Op_Mud_Forehead_X%AddToFirst (MudSystem%Xend_OpSection(F_Counts%BottomHoleIntervalCounts))
call MudSystem%Op_Mud_Forehead_section%AddToFirst (F_Counts%BottomHoleIntervalCounts)
call MudSystem%Op_Density%AddToFirst (MudProperties%ActiveDensity)
call MudSystem%Op_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
call MudSystem%Op_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
call MudSystem%Op_MudOrKick%AddToFirst (0)
!F_StringIntervalCountsOld= F_StringIntervalCounts ! is used for adding new pipe to string
MudSystem%F_StringIntervalCounts_Old= F_Counts%StringIntervalCounts ! is used for adding new pipe to string
MudSystem%FirstMudSet= 1
endif

!===================== Trip Detection ================
!DeltaVolumeOp > 0 : Trip in
!DeltaVolumeOp < 0 : Trip out


MudSystem%DeltaVolumeOp= ((MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)-MudSystem%OldPosition)*PII*((MudSystem%OD_PipeSectionInch(F_Counts%StringIntervalCounts+1)/12.0d0)**2)/4.0d0)* 7.48051948d0! ft^3 to gal ! D(in)
MudSystem%DeltaVolumeOp = INT(MudSystem%DeltaVolumeOp * 100000.d0) / 100000.d0
MudSystem%DeltaVolumePipe= ((MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)-MudSystem%OldPosition)*PII*((MudSystem%ID_PipeSectionInch(F_Counts%StringIntervalCounts+F_Counts%AnnulusIntervalCounts)/12.0d0)**2)/4.0d0)* 7.48051948d0! ft^3 to gal
MudSystem%DeltaVolumePipe = INT(MudSystem%DeltaVolumePipe * 100000.d0) / 100000.d0
!DeltaVolumeAnnulusCapacity= ((Xend_PipeSection(F_Counts%StringIntervalCounts)-OldPosition))*Area_PipeSectionFt(NoPipeSections)* 7.48051948d0! ft^3 to gal
DrillStringSpeed = (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)-MudSystem%OldPosition) / 0.1
MudSystem%DeltaVolumeAnnulusCapacity= sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections)) - MudSystem%OldAnnulusCapacity
!write(*,*) 'DeltaVolumeAnnulusCapacity= ' , DeltaVolumeAnnulusCapacity
!write(*,*) 'DeltaVolumePipe=' , DeltaVolumePipe
!write(*,*) 'DeltaVolumeOp=' , DeltaVolumeOp
!
!
!write(*,*) 'Bit here=' , Xend_PipeSection(F_Counts%StringIntervalCounts)
MudSystem%OldAnnulusCapacity= sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections))

MudSystem%OldPosition= MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)
! Needed for trip in or out:
if (MudSystem%Hz_Mud_Backhead_X%Length() == 0) then
CALL ErrorStop('Hz_Mud_Backhead_X Length is 0')
endif
MudSystem%Hz_Mud_Backhead_X%Array(1)= MudSystem%Xstart_PipeSection(1)
MudSystem%Hz_Mud_Backhead_section%Array(1)= 1
MudSystem%AddedElementsToString = F_Counts%StringIntervalCounts - MudSystem%F_StringIntervalCounts_Old
MudSystem%St_Mud_Backhead_X%Array(1)= MudSystem%Xstart_PipeSection(2)
MudSystem%St_Mud_Backhead_section%Array(1)= 2
MudSystem%Ann_Mud_Backhead_X%Array(1)= MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts+1)
MudSystem%Ann_Mud_Backhead_section%Array(1)= F_Counts%StringIntervalCounts+1
MudSystem%Op_Mud_Backhead_X%Array(1)= MudSystem%Xstart_OpSection(1)
MudSystem%Op_Mud_Backhead_section%Array(1)= 1
MudSystem%ChokeLine_Mud_Backhead_X%Array(1)= 0.
MudSystem%ChokeLine_Mud_Backhead_section%Array(1)= 1
MudSystem%F_StringIntervalCounts_Old= F_Counts%StringIntervalCounts
!write(*,*) 'Xstart_PipeSection(2)' , Xstart_PipeSection(2)
!write(*,*) 'Xend_PipeSection(1)' , Xend_PipeSection(1)

!===================================================
!
!DeltaWellCap= sum(PipeSection_VolumeCapacity(F_StringIntervalCounts+1:NoPipeSections)) + sum(OpSection_VolumeCapacity(1:F_BottomHoleIntervalCounts)) - WellCapOld
!WellCapOld= sum(PipeSection_VolumeCapacity(F_StringIntervalCounts+1:NoPipeSections)) + sum(OpSection_VolumeCapacity(1:F_BottomHoleIntervalCounts))
!write(*,*) 'DeltaWellCap=' , DeltaWellCap
!
!
!
!DeltaAnnCap= sum(PipeSection_VolumeCapacity(F_StringIntervalCounts+1:NoPipeSections)) - AnnCapOld
!AnnCapOld= sum(PipeSection_VolumeCapacity(F_StringIntervalCounts+1:NoPipeSections))
!write(*,*) 'DeltaAnnCap=' , DeltaAnnCap
end subroutine ElementsCreation

+ 215
- 0
Equipments/MudSystem-old/FillingWell_By_BellNipple.f90 Целия файл

@@ -0,0 +1,215 @@
subroutine FillingWell_By_BellNipple ! is called in subroutine CirculationCodeSelect
! this subroutine is for lines: 1) BellNippleToWell-NonFullWell : MUD(8)%Q
! 2) PumpsToWell_KillLine : MUD(10)%Q
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
use CDrillWatchVariables
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
use KickVARIABLESModule
implicit none
real(8) deltaV,Xposition,FillingDensity
integer kloc,SectionPosition

! Well Is Not Full
if (MudSystem%Ann_MudOrKick%Last() == 104) then ! Last Element is air we must observe: Ann_Mud_Forehead_X%Last()=0.0
write(*,*) 'FillingWell_By_BellNipple-Last Element is air'
!write(*,*) '*Ann_Mud_Forehead_X%Last()=' , Ann_Mud_Forehead_X%Last()
!write(*,*) '*Ann_MudOrKick%Last()=' , Ann_MudOrKick%Last()
FillingDensity= MudSystem%BellNippleDensity
!****************************
if ( MudSystem%Ann_MudDischarged_Volume%Last() > (((MUD(8)%Q+MUD(10)%Q)/60.)*MudSystem%DeltaT_Mudline)) then ! air baghi mimune
kloc= MudSystem%Ann_MudDischarged_Volume%Length()-1
deltaV= ((MUD(8)%Q+MUD(10)%Q)/60.)*MudSystem%DeltaT_Mudline
MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_MudDischarged_Volume%Length())= MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_MudDischarged_Volume%Length()) - deltaV
!========================ANNULUS ENTRANCE====================
if (ABS(MudSystem%Ann_Density%Array(kloc) - FillingDensity) >= MudSystem%DensityMixTol) then ! new mud is pumped
call MudSystem%Ann_Density%AddTo (kloc, FillingDensity)
call MudSystem%Ann_MudDischarged_Volume%AddTo (kloc, 0.0d0)
call MudSystem%Ann_Mud_Forehead_X%AddTo (kloc, 0.0d0)
call MudSystem%Ann_Mud_Forehead_section%AddTo (kloc, 1)
call MudSystem%Ann_Mud_Backhead_X%AddTo (kloc, 0.0d0)
call MudSystem%Ann_Mud_Backhead_section%AddTo (kloc, MudSystem%NoPipeSections)
call MudSystem%Ann_RemainedVolume_in_LastSection%AddTo (kloc, 0.0d0)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%AddTo (kloc, 0.0d0)
call MudSystem%Ann_MudOrKick%AddTo (kloc, 0)
call MudSystem%Ann_CuttingMud%AddTo (kloc,0)
!AnnulusSuctionDensity_Old= Hz_Density_Utube
endif
!========================ANNULUS====================

MudSystem%Ann_MudDischarged_Volume%Array(kloc)= MudSystem%Ann_MudDischarged_Volume%Array(kloc)+ deltaV !(gal)
else ! ( Ann_MudDischarged_Volume%Last() <= (((MUD(8)%Q+MUD(10)%Q)/60.)*DeltaT_Mudline)) then ! air baghi namune

kloc= MudSystem%Ann_MudDischarged_Volume%Length()-1
deltaV= MudSystem%Ann_MudDischarged_Volume%Last()
if (ABS(MudSystem%Ann_Density%Array(kloc)-FillingDensity)< MudSystem%DensityMixTol .and. MudSystem%Ann_CuttingMud%Array(kloc)==0) then ! .OR. (Ann_MudDischarged_Volume%Array(kloc)< 42.) ) then ! 1-Pockets are Merged
MudSystem%Ann_Density%Array(kloc)= (MudSystem%Ann_Density%Array(kloc)*MudSystem%Ann_MudDischarged_Volume%Array(kloc)+FillingDensity*deltaV)/(MudSystem%Ann_MudDischarged_Volume%Array(kloc)+deltaV)
MudSystem%Ann_MudDischarged_Volume%Array(kloc)= MudSystem%Ann_MudDischarged_Volume%Array(kloc)+deltaV
MudSystem%Ann_Mud_Forehead_X%Array(kloc)= MudSystem%Xend_PipeSection(MudSystem%NoPipeSections)
MudSystem%Ann_Mud_Forehead_section%Array(kloc)= MudSystem%NoPipeSections
!Ann_Mud_Backhead_X%Array(kloc)= no change
!Ann_Mud_Backhead_section%Array(kloc)= no change
MudSystem%Ann_RemainedVolume_in_LastSection%Array(kloc)= (0.0)
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(kloc)= (0.0)
call MudSystem%Ann_MudDischarged_Volume%Remove (kloc+1)
call MudSystem%Ann_Mud_Backhead_X%Remove (kloc+1)
call MudSystem%Ann_Mud_Backhead_section%Remove (kloc+1)
call MudSystem%Ann_Mud_Forehead_X%Remove (kloc+1)
call MudSystem%Ann_Mud_Forehead_section%Remove (kloc+1)
call MudSystem%Ann_Density%Remove (kloc+1)
call MudSystem%Ann_RemainedVolume_in_LastSection%Remove (kloc+1)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%Remove (kloc+1)
call MudSystem%Ann_MudOrKick%Remove (kloc+1)
call MudSystem%Ann_CuttingMud%Remove (kloc+1)
else ! 2-Merging conditions are not meeted, so new pocket== air is replaced with filling mud
MudSystem%Ann_Density%Array(kloc+1) =FillingDensity
MudSystem%Ann_MudOrKick%Array(kloc+1)= 0
endif

endif
! end condition (Ann_MudOrKick%Last() == 104) ! Last Element is air
!**********************************************************************************************************************************************************
else ! (Ann_MudOrKick%Last() == 0) then ! Last Element is NOT air- so we must observe: Ann_Mud_Forehead_X%Last()/=0.0
!write(*,*) 'FillingWell_By_BellNipple-Last Element is NOT air'
!
!write(*,*) '*Ann_Mud_Forehead_X%Last()=' , Ann_Mud_Forehead_X%Last()
!write(*,*) '*Ann_MudOrKick%Last()=' , Ann_MudOrKick%Last()
deltaV= ((MUD(8)%Q+MUD(10)%Q)/60.)*MudSystem%DeltaT_Mudline
kloc= MudSystem%Ann_MudDischarged_Volume%Length()

!========================ANNULUS ENTRANCE====================
if (ABS(MudSystem%Ann_Density%Last() - FillingDensity) >= MudSystem%DensityMixTol .or. MudSystem%Ann_CuttingMud%Last()==1) then ! .OR. (Ann_MudDischarged_Volume%Array(kloc)>42.) ) then ! new mud is pumped
Xposition= MudSystem%Ann_Mud_Forehead_X%Last()
SectionPosition= MudSystem%Ann_Mud_Forehead_section%Last()
call MudSystem%Ann_Density%Add (FillingDensity)
call MudSystem%Ann_MudDischarged_Volume%Add (0.0d0)
call MudSystem%Ann_Mud_Forehead_X%Add (Xposition)
call MudSystem%Ann_Mud_Forehead_section%Add (SectionPosition)
call MudSystem%Ann_Mud_Backhead_X%Add (Xposition)
call MudSystem%Ann_Mud_Backhead_section%Add (SectionPosition)
call MudSystem%Ann_RemainedVolume_in_LastSection%Add (0.0d0)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%Add (0.0d0)
call MudSystem%Ann_MudOrKick%Add (0)
call MudSystem%Ann_CuttingMud%Add (0)
!AnnulusSuctionDensity_Old= Hz_Density_Utube
!endif
!========================ANNULUS====================

MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_MudDischarged_Volume%Length())= MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_MudDischarged_Volume%Length())+ deltaV !(gal)
else ! Merged with last Mud
MudSystem%Ann_Density%Array(kloc)= (MudSystem%Ann_Density%Array(kloc)*MudSystem%Ann_MudDischarged_Volume%Array(kloc)+FillingDensity*deltaV)/(MudSystem%Ann_MudDischarged_Volume%Array(kloc)+deltaV)
MudSystem%Ann_MudDischarged_Volume%Array(kloc)= MudSystem%Ann_MudDischarged_Volume%Array(kloc)+deltaV
!Ann_Mud_Forehead_X%Array(kloc)= Xend_PipeSection(NoPipeSections)
!Ann_Mud_Forehead_section%Array(kloc)= NoPipeSections
!Ann_Mud_Backhead_X%Array(kloc)= no change
!Ann_Mud_Backhead_section%Array(kloc)= no change
MudSystem%Ann_RemainedVolume_in_LastSection%Array(kloc)= (0.0)
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(kloc)= (0.0)
endif

endif

end subroutine FillingWell_By_BellNipple

+ 234
- 0
Equipments/MudSystem-old/Kick_Expansion_and_Contraction.f90 Целия файл

@@ -0,0 +1,234 @@
subroutine Kick_Expansion ! is called in subroutine CirculationCodeSelect
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
use CDrillWatchVariables
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
USE CReservoirVariables
use KickVARIABLESModule

implicit none
real(8) ExpansionVolume

!write(*,*) 'Kick Expansion'
ExpansionVolume= GasPocketDeltaVol%Array(MudSystem%NewInfluxNumber - MudSystem%KickNumber + 1) * 7.48

IF ( MudSystem%Kickexpansion_DueToMudLost ) ExpansionVolume = ((MudSystem%Qlost/60.0d0)*MudSystem%DeltaT_Mudline)


!============================== kick zire mate bashad ==============================

if (MudSystem%Op_KickLoc > 0 .and. MudSystem%Ann_KickLoc==0) then ! .and. Op_KickLoc /= Op_MudOrKick%Length ()) then
!write(*,*) 'expansion (1)'

MudSystem%Op_MudDischarged_Volume%Array(MudSystem%Op_KickLoc)= MudSystem%Op_MudDischarged_Volume%Array(MudSystem%Op_KickLoc)+ ExpansionVolume

!if (MUD(4)%Q > 0.) then
!
! if (abs(ChokeLine_Density%Array(1)-Ann_Density%Last())< DensityMixTol) then
! ChokeLine_MudDischarged_Volume%Array(1)= ChokeLine_MudDischarged_Volume%Array(1) + ExpansionVolume
! else
! call ChokeLine_Density%AddToFirst (Ann_Density%Last())
! call ChokeLine_MudDischarged_Volume%AddToFirst (ExpansionVolume) ! farz kardam ke hameye hajm ro ba yek density ezafe konim
! call ChokeLine_Mud_Forehead_X%AddToFirst (0.0d0)
! call ChokeLine_Mud_Forehead_section%AddToFirst (1)
! call ChokeLine_Mud_Backhead_X%AddToFirst (0.0d0)
! call ChokeLine_Mud_Backhead_section%AddToFirst (1)
! call ChokeLine_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call ChokeLine_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
! call ChokeLine_MudOrKick%AddToFirst (Ann_MudOrKick%Last())
! endif
!
!endif
endif
!========================================================================================
!============================= foreheade dar fazaye annulus bashad ===========================
! agar kick be entehaye annulus reside bashe, expansion ra emaal nemikonim
if (MudSystem%Ann_KickLoc > 0) then ! .and. Ann_KickLoc /= Ann_MudOrKick%Length ()) then
!write(*,*) 'expansion (2)'

!if ( sum(Ann_MudDischarged_Volume%Array(1:Ann_KickLoc)) + ExpansionVolume > sum(PipeSection_VolumeCapacity(F_StringIntervalCounts+1:NoPipeSections)) ) then ! agar khast az mate rad kone
! ExpansionVolume= sum(PipeSection_VolumeCapacity(F_StringIntervalCounts+1:NoPipeSections)) - sum(Ann_MudDischarged_Volume%Array(1:Ann_KickLoc))
!endif
MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_KickLoc)= MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_KickLoc)+ ExpansionVolume
!if (MUD(4)%Q > 0.) then
!
!
! if (abs(ChokeLine_Density%Array(1)-Ann_Density%Last())< DensityMixTol) then
! ChokeLine_MudDischarged_Volume%Array(1)= ChokeLine_MudDischarged_Volume%Array(1) + ExpansionVolume
! else
! call ChokeLine_Density%AddToFirst (Ann_Density%Last())
! call ChokeLine_MudDischarged_Volume%AddToFirst (ExpansionVolume) ! farz kardam ke hameye hajm ro ba yek density ezafe konim
! call ChokeLine_Mud_Forehead_X%AddToFirst (0.0d0)
! call ChokeLine_Mud_Forehead_section%AddToFirst (1)
! call ChokeLine_Mud_Backhead_X%AddToFirst (0.0d0)
! call ChokeLine_Mud_Backhead_section%AddToFirst (1)
! call ChokeLine_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call ChokeLine_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
! call ChokeLine_MudOrKick%AddToFirst (Ann_MudOrKick%Last())
! endif
!
!endif
endif
!========================================================================================
!=============================== foreheade dar choke line bashad =============================
if (MudSystem%ChokeLine_KickLoc > 0 .and. MudSystem%Ann_KickLoc==0) then
MudSystem%ChokeLine_MudDischarged_Volume%Array(MudSystem%ChokeLine_KickLoc)= MudSystem%ChokeLine_MudDischarged_Volume%Array(MudSystem%ChokeLine_KickLoc)+ ExpansionVolume
endif
!========================================================================================
!write(*,*) 'Expansion======0'
! !do imud=1, Ann_MudDischarged_Volume%Length()
! ! write(*,*) 'Ann:', imud, Ann_MudDischarged_Volume%Array(imud), Ann_Density%Array(imud) ,Ann_MudOrKick%Array(imud)
! !enddo
!
! do imud=1, Op_MudDischarged_Volume%Length()
! write(*,*) 'Op:', imud, Op_MudDischarged_Volume%Array(imud), Op_Density%Array(imud) ,Op_MudOrKick%Array(imud)
! enddo
!write(*,*) '0======expansion'
end subroutine Kick_Expansion
subroutine Kick_Contraction ! is called in subroutine CirculationCodeSelect
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
use CDrillWatchVariables
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
USE CReservoirVariables
use KickVARIABLESModule
USE CError

implicit none
integer jelement, jmud, jsection,ielement,i
integer jopelement,jopmud,jopsection
real(8) ContractionVolume
!*********************************************************
! contraction is always with pump flow
!*********************************************************
!write(*,*) 'Kick Contraction'

!MUD(2)%Q= MPumps%Total_Pump_GPM
MudSystem%StringFlowRate= MUD(2)%Q
MudSystem%AnnulusFlowRate= MUD(2)%Q
if (MudSystem%NewPipeFilling == 0) then
MudSystem%StringFlowRate= 0.
MudSystem%AnnulusFlowRate= 0.
endif

!if (WellHeadIsOpen) then
ContractionVolume= - GasPocketDeltaVol%Array(MudSystem%NewInfluxNumber - MudSystem%KickNumber + 1) * 7.48
!else
!ContractionVolume = (MudSystem%StringFlowRate/60.0d0)*DeltaT_Mudline + DeltaVolumePipe
if (MudSystem%KickNumber == 1 .and. MudSystem%WellHeadIsOpen==.false.) ContractionVolume = ContractionVolume + (MudSystem%StringFlowRate/60.0d0)*MudSystem%DeltaT_Mudline + MudSystem%DeltaVolumePipe
!endif
!**************************************************************************************************************************************************************************
! pump mud is added in "pump&TripIn" code
IF (MudSystem%Op_KickLoc > 0 .and. MudSystem%Ann_KickLoc == 0) then ! All of kick is under bit (iloc == 1)
MudSystem%Op_MudDischarged_Volume%Array(MudSystem%Op_KickLoc)= MudSystem%Op_MudDischarged_Volume%Array(MudSystem%Op_KickLoc) - ( ContractionVolume )
ELSE IF (MudSystem%Op_KickLoc == 0 .AND. MudSystem%Ann_KickLoc > 0 .AND. MudSystem%ChokeLine_KickLoc == 0) THEN ! All of kick is an Annulus (iloc == 1)
MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_KickLoc)= MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_KickLoc) - ( ContractionVolume )
ELSE IF (MudSystem%Ann_KickLoc == 0 .AND. MudSystem%ChokeLine_KickLoc > 0) THEN ! kick is in chokeline only
MudSystem%ChokeLine_MudDischarged_Volume%Array(MudSystem%ChokeLine_KickLoc)= MudSystem%ChokeLine_MudDischarged_Volume%Array(MudSystem%ChokeLine_KickLoc) - ( ContractionVolume )
ELSE IF (MudSystem%Op_KickLoc > 0 .AND. MudSystem%Ann_KickLoc > 0) THEN ! Kick is around bit (iloc==2)
if (MudSystem%Ann_MudDischarged_Volume%Array(1) > ContractionVolume ) then
MudSystem%Ann_MudDischarged_Volume%Array(1)= MudSystem%Ann_MudDischarged_Volume%Array(1) - ( ContractionVolume )
elseif (MudSystem%Op_MudDischarged_Volume%Last() > ContractionVolume ) then
MudSystem%Op_MudDischarged_Volume%Array(MudSystem%Op_MudDischarged_Volume%Length())= MudSystem%Op_MudDischarged_Volume%Array(MudSystem%Op_MudDischarged_Volume%Length()) - ( ContractionVolume )
else
Call ErrorStop ('kick contraction error 1')
endif
ELSE IF (MudSystem%Ann_KickLoc > 0 .AND. MudSystem%ChokeLine_KickLoc > 0) THEN
if (MudSystem%ChokeLine_MudDischarged_Volume%Array(1) > ContractionVolume ) then
MudSystem%ChokeLine_MudDischarged_Volume%Array(1) = MudSystem%ChokeLine_MudDischarged_Volume%Array(1) - ( ContractionVolume )
elseif (MudSystem%Ann_MudDischarged_Volume%Last() > ContractionVolume ) then
MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_MudDischarged_Volume%Length())= MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_MudDischarged_Volume%Length()) - ( ContractionVolume )
else
Call ErrorStop ('kick contraction error 2')
endif

endif

! write(*,*) 'contract======0'
!! !do imud=1, Ann_MudDischarged_Volume%Length()
!! ! write(*,*) 'Ann:', imud, Ann_MudDischarged_Volume%Array(imud), Ann_Density%Array(imud) ,Ann_MudOrKick%Array(imud)
!! !enddo
!!
! do imud=1, Op_MudDischarged_Volume%Length()
! write(*,*) 'Op:', imud, Op_MudDischarged_Volume%Array(imud), Op_Density%Array(imud) ,Op_MudOrKick%Array(imud)
! enddo
!write(*,*) '0======contract'

end subroutine Kick_Contraction

+ 215
- 0
Equipments/MudSystem-old/Kick_Influx.f90 Целия файл

@@ -0,0 +1,215 @@
subroutine Kick_Influx ! is called in subroutine CirculationCodeSelect
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
use CDrillWatchVariables
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
use KickVARIABLESModule

implicit none

!===========================================================WELL============================================================
!===========================================================WELL============================================================

!write(*,*) 'Kick Influx'

!=================== Bottom Hole Kick Influx ENTRANCE(due to Kick) ===================
MudSystem%Kick_Density= 2
MudSystem%NewInflux_Density= MudSystem%Kick_Density
if ( MudSystem%NewInfluxElementCreated==0 ) then ! new kick is pumped- (it is set to zero in sheykh subroutine after a new kick influx)
call MudSystem%Op_Density%AddToFirst (MudSystem%NewInflux_Density)
call MudSystem%Op_MudDischarged_Volume%AddToFirst (0.0d0)
call MudSystem%Op_Mud_Forehead_X%AddToFirst (MudSystem%Xstart_OpSection(1))
call MudSystem%Op_Mud_Forehead_section%AddToFirst (1)
call MudSystem%Op_Mud_Backhead_X%AddToFirst (MudSystem%Xstart_OpSection(1))
call MudSystem%Op_Mud_Backhead_section%AddToFirst (1)
call MudSystem%Op_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
call MudSystem%Op_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
call MudSystem%Op_MudOrKick%AddToFirst (MudSystem%NewInfluxNumber) ! KickNumber= NewInfluxNumber
MudSystem%NewInfluxElementCreated= 1
endif

MudSystem%Op_MudDischarged_Volume%Array(1)= MudSystem%Op_MudDischarged_Volume%Array(1)+ ((GasKickPumpFlowRate/60.0d0)*MudSystem%DeltaT_Mudline) !(gal) due to KickFlux
!write(*,*) 'kick volume ok=' , Op_MudDischarged_Volume%Array(1)


end subroutine Kick_Influx
subroutine Instructor_CirculationMud_Edit ! is called in subroutine CirculationCodeSelect

use KickVARIABLESModule
Use MudSystemVARIABLES
USE TD_DrillStemComponents
Use CUnityInputs
Use CUnityOutputs
USE CKellyConnectionEnumVariables
use UTUBEVARSModule
use sROP_Variables
use sROP_Other_Variables
use CDownHoleVariables

implicit none



if ( DownHole%AnnDrillMud == .true. .and. (ROP_Bit%RateOfPenetration>0. .and. MudSystem%DeltaVolumeOp>0.0) ) then
do imud= 1, MudSystem%Ann_Density%Length()
if ( MudSystem%Ann_MudOrKick%Array(imud) == 0 ) then
MudSystem%Ann_Density%Array(imud)= (MudSystem%St_Density%Last() * MudSystem%AnnulusFlowRate + 141.4296E-4*ROP_Bit%RateOfPenetration*ROP_Spec%DiameterOfBit**2)/(MudSystem%AnnulusFlowRate+6.7995E-4*ROP_Bit%RateOfPenetration*ROP_Spec%DiameterOfBit**2)
MudSystem%Ann_CuttingMud%Array(imud)= 1
endif
enddo
endif
if ( DownHole%AnnCirculateMud == .true. ) then
do imud= 1, MudSystem%Ann_Density%Length()
if ( MudSystem%Ann_MudOrKick%Array(imud) == 0 ) then
MudSystem%Ann_Density%Array(imud)= MudSystem%ActiveTankDensity
MudSystem%Ann_CuttingMud%Array(imud)= 0
endif
enddo
do imud= 1, MudSystem%St_Density%Length()
MudSystem%St_Density%Array(imud)= MudSystem%ActiveTankDensity
enddo
endif



end subroutine Instructor_CirculationMud_Edit
subroutine ShoeLostSub ! is called in subroutine CirculationCodeSelect

use KickVARIABLESModule
Use MudSystemVARIABLES
USE TD_DrillStemComponents
Use CUnityInputs
Use CUnityOutputs
USE CKellyConnectionEnumVariables
use UTUBEVARSModule
use sROP_Variables
use sROP_Other_Variables
use CDownHoleVariables
use CShoeVariables
use PressureDisplayVARIABLESModule
Use CWarningsVariables

implicit none
MudSystem%ShoeLost= .false.
MudSystem%Kickexpansion_DueToMudLost= .false.
MudSystem%ShoeMudPressure= PressureGauges(5)
MudSystem%UGBOSuccessionCounter = MudSystem%UGBOSuccessionCounter + 1
!write(*,*) 'check point 1'
if (Shoe%InactiveFracture == .FALSE. .AND. ((MudSystem%ShoeMudPressure >= MudSystem%FormationLostPressure) .or. MudSystem%ShoeFractured )) then
!write(*,*) 'check point 2 ,UGBOSuccessionCounter' , UGBOSuccessionCounter
! if ShoeFractured changed to true , then time counter is not needed more
if ( MudSystem%UGBOSuccessionCounter /= MudSystem%UGBOSuccessionCounterOld+1 .and. MudSystem%ShoeFractured==.false. ) then
MudSystem%UGBOSuccessionCounter = 0 ! also in starup
MudSystem%UGBOSuccessionCounterOld = 0 ! also in starup
return
else
MudSystem%UGBOSuccessionCounterOld= MudSystem%UGBOSuccessionCounter
endif

if ( MudSystem%UGBOSuccessionCounter < 10 .and. MudSystem%ShoeFractured==.false.) then
return
endif
!write(*,*) 'check point 3 ,UGBOSuccessionCounter' , UGBOSuccessionCounter
MudSystem%ShoeFractured= .true.
MudSystem%ShoeMudViscosity= MAX(MudSystem%ShoeMudViscosity, 12.d0)
!write(*,*) 'ShoeMudDensity , ShoeMudViscosity' , ShoeMudDensity , ShoeMudViscosity
MudSystem%ShoeLostCoef = 10.**(-8) * 1.15741d0 * 7.08d0 * 1000000.d0 * 1.d0 * MudSystem%ShoeMudDensity / &
(MudSystem%ShoeMudViscosity * LOG(10000.d0))
!write(*,*) 'lost parameters 1' , ShoeMudPressure , FormationLostPressure
MudSystem%Qlost = MAX( (MudSystem%ShoeLostCoef * (MudSystem%ShoeMudPressure - (MudSystem%FormationLostPressure/2.0))) , 0.d0 )
if (MudSystem%Qlost > 0.0) then
MudSystem%ShoeLost= .true.
else
MudSystem%ShoeLost= .false.
endif
!write(*,*) 'Qlost=' , Qlost, ShoeMudPressure, FormationLostPressure
call Activate_UndergroundBlowout()
do imud= 1, MudSystem%Ann_Mud_Forehead_X%Length()

IF ( MudSystem%ShoeLost .and. Shoe%ShoeDepth < MudSystem%Ann_Mud_Backhead_X%Array(imud) .and. Shoe%ShoeDepth >= MudSystem%Ann_Mud_Forehead_X%Array(imud) &
.and. MudSystem%Ann_MudOrKick%Array(imud) == 0 .and. MudSystem%WellHeadIsOpen == .FALSE. ) then
MudSystem%Kickexpansion_DueToMudLost= .true.
write(*,*) 'Kickexpansion_DueToMudLost'
EXIT
ENDIF
enddo

endif
if (Warmings%UndergroundBlowout == .false.) MudSystem%ShoeLost= .false.
end subroutine ShoeLostSub

+ 1176
- 0
Equipments/MudSystem-old/Kick_Migration.f90
Файловите разлики са ограничени, защото са твърде много
Целия файл


+ 3295
- 0
Equipments/MudSystem-old/MudSystem.f90
Файловите разлики са ограничени, защото са твърде много
Целия файл


+ 85
- 0
Equipments/MudSystem-old/MudSystemMain.f90 Целия файл

@@ -0,0 +1,85 @@
module MudSystemMain
implicit none
public
contains
! subroutine MudSystem_Setup()
! ! use CSimulationVariables
! use MudSystemModule
! implicit none
! call SetupMudSystem()
! call OnSimulationStop%Add(MudSystem_Stop)
! call OnMudSystemStart%Add(MudSystem_Start)
! call OnMudSystemStep%Add(MudSystem_Step)
! call OnMudSystemMain%Add(MudSystemMainBody)
! end subroutine
subroutine MudSystem_Stop
implicit none
!print* , 'MudSystem_Stop'
CALL DEALLOCATE_ARRAYS_MudSystem()
end subroutine MudSystem_Stop
subroutine MudSystem_Init
implicit none
!print* , 'MudSystem_Start'
CALL MudSystem_StartUp()
end subroutine MudSystem_Init
subroutine MudSystem_Step
use MudSystemModule
use CManifolds
implicit none
!print* , 'MudSystem_Step'
!CALL main
if(Manifold%IsTraverse) then
call LineupAndPath()
Manifold%IsTraverse = .false.
endif
call main()
end subroutine MudSystem_Step

! subroutine MudSystemMainBody
! ! use CSimulationVariables
! use MudSystemModule
! implicit none
! INTEGER :: MudDuration
! integer,dimension(8) :: MudStartTime , MudEndTime
!
!CALL MudSystem_StartUp()
! loop1: DO
!
! CALL DATE_AND_TIME(values=MudStartTime)
! !WRITE (*,*) '***MudSys_timeCounter', MudSys_timeCounter
!
!
! CALL main
!
! CALL DATE_AND_TIME(values=MudEndTime)
!
! MudDuration = 3600000 * (MudEndTime(5) - MudStartTime(5)) + 60000 * (MudEndTime(6) - MudStartTime(6)) + 1000 * (MudEndTime(7) - MudStartTime(7)) + (MudEndTime(8) - MudStartTime(8))
!
! if (MudDuration < 100) then
! ELSE
! WRITE (*,*) 'Mud System run duration exceeded 100 ms and =', MudDuration
! end if
!
! IF (IsStopped==.true.) THEN
! EXIT loop1
! ENDIF
!
! !CALL DATE_AND_TIME(values=FlowEndTime)
! !WRITE (*,*) 'FlowEndTime=' , FlowEndTime
!
! !FlowDuration = FlowEndTime(8) - FlowStartTime(8)
!
! !WRITE (*,*) 'FlowDuration Mud system=' , FlowDuration
!
! ENDDO loop1
!
! CALL DEALLOCATE_ARRAYS_MudSystem()
! end subroutine MudSystemMainBody
end module MudSystemMain

+ 501
- 0
Equipments/MudSystem-old/MudSystemStartup.f90 Целия файл

@@ -0,0 +1,501 @@
SUBROUTINE NormalCirculation_StartUp() ! is called in module FluidFlowMain
USE MudSystemVARIABLES
use CTanksVariables
USE CMudPropertiesVariables
Use GeoElements_FluidModule
use KickVARIABLESModule
Use CUnityOutputs
Use CShoeVariables
USE Pumps_VARIABLES
implicit none
! temporary varibales for solving pressure jerks -- 1399-11-09
!Pump1BlownInTimeStep = 0
!Pump2BlownInTimeStep = 0
!Pump3BlownInTimeStep = 0
!Pump1BlownStarted = .FALSE.
!Pump2BlownStarted = .FALSE.
!Pump3BlownStarted = .FALSE.
MudSystem%Pump1BlownCount = 0
MudSystem%Pump2BlownCount = 0
MudSystem%Pump3BlownCount = 0
MudSystem%DeltaWellCap=0.
MudSystem%WellCapOld = 0.
MudSystem%AnnCapOld=0.
MudSystem%DeltaAnnCap=0.
MPumps%Total_Stroke_Counter_For_Plot = 0.0

MudSystem%DeltaT_Mudline=0.1 !second
Call Set_FlowKellyDisconnect(.false.)
Call Set_FlowPipeDisconnect(.false.)
!HZ_ADD= 0.d0
MudSystem%Flow_timeCounter= 0
MudSystem%MudSys_timeCounter= 0
MudSystem%FluidFlowCounter = 0
!========================================================================
! MUD CIRCULATION STARTUP
!========================================================================
MudSystem%FormationLostPressure= Shoe%LeakOff * Shoe%ShoeDepth
MudSystem%ShoeFractured= .false.
MudSystem%UGBOSuccessionCounter = 0 ! also in starup
MudSystem%UGBOSuccessionCounterOld = 0 ! also in starup
MudSystem%ChokeLineFlowRate= 0.0
MudSystem%StringFlowRate= 0.0
MudSystem%AnnulusFlowRate= 0.0
MudSystem%MudVolume_InjectedFromAnn= 0.D0
MudSystem%MudVolume_InjectedToBH= 0.D0
MudSystem%DensityMixTol= 0.1 !(ppg)
MudSystem%CuttingDensityMixTol= 0.5
MudSystem%NewPipeFilling= 1
MudSystem%UtubeFilling= 1
MudSystem%UtubeEmptyVolume= 0.0
MudSystem%UtubeMode1Activated= .false.
MudSystem%UtubeMode2Activated= .false.
MudSystem%UtubePossibility= .false.
!KickMigration_2SideBit = .FALSE.
MudSystem%KickDx= (Reservoir%AutoMigrationRate/3600.)*MudSystem%DeltaT_Mudline !AutoMigrationRate (ft/h)= ft per DeltaT_Mudline

MudSystem%NewInfluxElementCreated= 0
MudSystem%NewInfluxNumber= 0
!KickVolumeinAnnulus= 0.0
MudSystem%KickDeltaVinAnnulus= 0.0
GasKickPumpFlowRate= 0.0
MudSystem%FirstMudSet= 0
MudSystem%FirstSetUtube1=0
MudSystem%FirstSetUtube2=0
MudSystem%SuctionMud=1
MudSystem%ImudCount= 1
imud=1
MudSystem%iLoc= 1 ! for Kick

MudSystem%Suction_Density_MudSystem= MudProperties%ActiveDensity
MudSystem%SuctionDensity_Old= MudProperties%ActiveDensity ! initial(ppg)
MudSystem%StringDensity_Old= MudProperties%ActiveDensity ! initial(ppg)
MudSystem%AnnulusSuctionDensity_Old= MudProperties%ActiveDensity ! initial(ppg)
MudSystem%ChokeLineDensity_Old= MudProperties%ActiveDensity ! initial(ppg)
MudSystem%TotalAddedVolume= 0.


MudSystem%xx=0.


END SUBROUTINE NormalCirculation_StartUp
SUBROUTINE MudSystem_StartUp()
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE CDataDisplayConsoleVariables
USE CHOKEVARIABLES
USE Pumps_VARIABLES
USE CBopStackVariables
USE CPumpsVariables
use CTanksVariables
use KickVARIABLESModule
implicit none
CALL MUDLINE_LOSS_INPUTS()

!MPumps%Total_Pump_GPM=10. ! Initial Value
MUD%Q=0. ! Initial Value
MudSystem%Q_flow32=0.
MudSystem%Q_flow33=0.
MudSystem%Q_flow34=0.
MudSystem%Q_flow35=0.
MudSystem%DeltaT_Mudline=0.1 !second
GasKickPumpFlowRate= 0.
MudSystem%BellNippleVolume= 0.
MudSystem%BellNippleDensity= 0.
MudSystem%MudBucketVolume= 0.
MudSystem%MudBucketDensity= 0.
MudSystem%BellNippleDumpVolume= 0.
!BellNippleDumpRate= 0.
!BellNippleToPitsRate= 0.0
MudSystem%MudChecked= .true.
MudSystem%condition32Final= .TRUE.
MudSystem%condition33Final= .TRUE.
MudSystem%condition34Final= .TRUE.
MudSystem%PressureGauge75= 0.0
MudSystem%PressureGauge76 = 0.0

!!======================================================================
!! TRIP TANK
!!======================================================================
MudSystem%TripTank_MinVol_Allowded= 50.*42. !(bbl to gal, initial value)
MudSystem%TripTank_MaxVol_Allowded= 50. *42. !(bbl to gal, initial value)
MudSystem%ActiveTankFloorArea= (MudProperties%ActiveTotalTankCapacityGal) / (7.48051948*100./12.) ! (ft^2) - Tank Height= 100 inch , 12=inch to ft 7.48051948=gal to ft^3
MudSystem%TripTankFloorArea= (50.*42.) / (7.48051948*100./12.) ! (ft^2) - 50.*42.=Trip Tank Capacity in BBl*42= Gal , Tank Height= 100 inch , 12=inch to ft 7.48051948=gal to ft^3



MudSystem%TripTank_Vol= MudProperties%InitialTripTankMudVolumeGal !(gal)
MudSystem%TripTank_Dens= 1.
DataDisplayConsole%TripTankGauge=0.



MudSystem%ReturnToTrip_Q= 1.
MudSystem%ActiveToTrip_Q= 1.


MudSystem%TripTankPump_Q= .8


MudSystem%ReturnToTrip_Dens=1.0 ! ppg(lbm/gal)
MudSystem%ActiveToTrip_Dens=1.0

!!======================================================================
!! MUD VOLUME TOTALIZER
!!======================================================================

MudSystem%Mp1Density= 0.0 !(VALVE82)
MudSystem%Mp2Density= 0.0 !(VALVE83)
MudSystem%Mp3Density= 0.0 !(VALVE84)


MudSystem%ReserveTankVolume= MudProperties%ReserveMudVolumeGal ! initial volume (gal)
MudSystem%ReserveTankDensity= MudProperties%ReserveDensity ! initial



MudSystem%CementTankVolumeCalc= Tank%CementTankVolume !movaghat--- initial volume (gal)
MudSystem%CementTankDensityCalc= Tank%CementTankDensity !movaghat--- initial

MudSystem%PumpsDumpVolume=0.0
MudSystem%PumpsDumpFlowRate= 0.0


MudSystem%ActiveTankVolume= MudProperties%ActiveMudVolumeGal ! initial volume (gal)
MudSystem%RefrencePitVolume= MudSystem%ActiveTankVolume/42. !(bbl)
MudSystem%RefrencePitVolume_DrillWatch= MudSystem%ActiveTankVolume/42. !(bbl)

MudSystem%MVT_MinVol_Allowded= 0.
MudSystem%MVT_MaxVol_Allowded= 0.

MudSystem%MudTank1_vol= MudProperties%ActiveMudVolumeGal/3. ! (gal)
MudSystem%MudTank2_vol= MudProperties%ActiveMudVolumeGal/3. ! (gal)
MudSystem%MudTank3_vol= MudProperties%ActiveMudVolumeGal/3. ! (gal)
MudSystem%ActiveTankSettled= MudProperties%ActiveSettledContentsGal ! (gal)
MudSystem%MudTank4_vol= MudProperties%InitialTripTankMudVolumeGal ! (gal)

MudSystem%TripTankVolumeCalc= MudProperties%InitialTripTankMudVolumeGal ! initial volume (gal)
MudSystem%ActiveTankDensity= MudProperties%ActiveDensity ! initial(ppg)
MudSystem%TripTankDensityCalc= Tank%TripTankDensity ! initial(ppg)

MudSystem%ChokeManifoldDumpVolume= 0.0

MudSystem%PitGainLossZero= 0.
MudSystem%PitGainLossZero_Old= MudSystem%PitGainLossZero
MudSystem%MVTCoarseKnob_Old= DataDisplayConsole%MVTCoarseKnob
MudSystem%MVTFineKnob_Old= DataDisplayConsole%MVTFineKnob
MudSystem%FirstSet_Time= .true.



MudSystem%PedalMeter= MudProperties%PedalFlowMeter !1600. !(gpm)
MudSystem%ReturnFlowRate=0.



MudSystem%TotalStrokes1MFFI =0.
MudSystem%TotalStrokes2MFFI =0.

MudSystem%TotalStrokesPump1=0.
MudSystem%TotalStrokesPump2=0.
MudSystem%GraphTotalStrokes=0.
Choke%TotalStrokes1 =0.
Choke%TotalStrokes2 =0.



end
SUBROUTINE MUDLINE_LOSS_INPUTS()
USE MudSystemVARIABLES
USE CBopStackVariables
USE CPumpsVariables
implicit none
INTEGER I
!===========================================================================
! MUDLINE MINOR LOSSES INPUT
!===========================================================================
MudSystem%NO_MudMinors=4

ALLOCATE (MudSystem%MudMinors(MudSystem%NO_MudMinors,4))

! ID(INCH) LF CV NOTE(BAR) DESCRIPTION
MudSystem%MudMinors(1,1)= PumpsSpecification%MudPump1Output
MudSystem%MudMinors(1,2:4)= (/1.5*8., 0., 0./) !elbow (MLnumber=1,,PumpsToString)
MudSystem%MudMinors(2,1)= PumpsSpecification%MudPump1Output
MudSystem%MudMinors(2,2:4)= (/1.5*6., 0., 0./) !elbow (MLnumber=2,,STGaugeToString)
MudSystem%MudMinors(3,1:4)= (/0., 0., 0., 0./) !elbow (MLnumber=3,,WellToPits)
MudSystem%MudMinors(4,1)= BopStackSpecification%ChokeLineId
MudSystem%MudMinors(4,2:4)= (/1.5*7., 0., 0./) !elbow (MLnumber=4,,WellToChokeManifold)


ALLOCATE (MudSystem%MINORDIAMETER_MUDLINE(MudSystem%NO_MudMinors),MudSystem%AREAMINOR_MUDLINE(MudSystem%NO_MudMinors),MudSystem%LF_MUDLINE(MudSystem%NO_MudMinors),MudSystem%CV_MUDLINE(MudSystem%NO_MudMinors) &
,MudSystem%NOTE_MUDLINE(MudSystem%NO_MudMinors))



DO I=1,MudSystem%NO_MudMinors
MudSystem%MINORDIAMETER_MUDLINE(I)=MudSystem%MudMinors(I,1)
MudSystem%LF_MUDLINE(I)=MudSystem%MudMinors(I,2)
MudSystem%CV_MUDLINE(I)=MudSystem%MudMinors(I,3)
MudSystem%NOTE_MUDLINE(I)=MudSystem%MudMinors(I,4)
MudSystem%AREAMINOR_MUDLINE(I)=PII*(MudSystem%MINORDIAMETER_MUDLINE(I)*0.0254)**2/4. !D(in), AREA(m^2)
ENDDO
!===========================================================================
! MUDLINE PIPNING LOSSES INPUT
!===========================================================================
MudSystem%NO_PIPINGSMUDLINE=4

ALLOCATE (MudSystem%PIPINGS_MUDLINE(MudSystem%NO_PIPINGSMUDLINE,3))

! ID(INCH) L(FEET) ROUGHNESS(MM)=e DESCRIPTION
MudSystem%PIPINGS_MUDLINE(1,1)= PumpsSpecification%MudPump1Output
MudSystem%PIPINGS_MUDLINE(1,2:3)= (/265., 0.03/) !(MLnumber=1,,PumpsToString)
MudSystem%PIPINGS_MUDLINE(2,1)= PumpsSpecification%MudPump1Output
MudSystem%PIPINGS_MUDLINE(2,2:3)= (/100., 0.03/) !(MLnumber=2,,STGaugeToString)
MudSystem%PIPINGS_MUDLINE(3,1:3)= (/0., 0., 0./) !(MLnumber=3,,WellToPits)
MudSystem%PIPINGS_MUDLINE(4,1)= BopStackSpecification%ChokeLineId
MudSystem%PIPINGS_MUDLINE(4,2)= BopStackSpecification%ChokeLineLength
MudSystem%PIPINGS_MUDLINE(4,3)= 0.03 !(MLnumber=4,,WellToChokeManifold)

MudSystem%Area_ChokeLineFt= PII*((BopStackSpecification%ChokeLineId/12.)**2)/4. !D(in), AREA(ft^2)
MudSystem%ChokeLine_VolumeCapacity= MudSystem%Area_ChokeLineFt* BopStackSpecification%ChokeLineLength* 7.48051948 ! (gal)

ALLOCATE (MudSystem%DIAM_MUDLINE_INCH(MudSystem%NO_PIPINGSMUDLINE), &
MudSystem%AREA_MUDLINE(MudSystem%NO_PIPINGSMUDLINE),MudSystem%LENGT_MUDLINE(MudSystem%NO_PIPINGSMUDLINE),MudSystem%ROUGHNESS_MUDLINE(MudSystem%NO_PIPINGSMUDLINE),MudSystem%RELROUGH_MUDLINE(MudSystem%NO_PIPINGSMUDLINE))


DO I=1,MudSystem%NO_PIPINGSMUDLINE
MudSystem%DIAM_MUDLINE_INCH(I)=MudSystem%PIPINGS_MUDLINE(I,1)
MudSystem%LENGT_MUDLINE(I)=MudSystem%PIPINGS_MUDLINE(I,2)
MudSystem%ROUGHNESS_MUDLINE(I)=MudSystem%PIPINGS_MUDLINE(I,3)
MudSystem%AREA_MUDLINE(I)=PII*(MudSystem%DIAM_MUDLINE_INCH(I)*0.0254)**2/4 !D(in), AREA(m^2)
MudSystem%RELROUGH_MUDLINE(I)=MudSystem%ROUGHNESS_MUDLINE(I)/(MudSystem%DIAM_MUDLINE_INCH(I)*25.4) !e/D
!DIAM_MUDLINE_MM(I)=DIAM_MUDLINE_MM(I)*.001 ! (m)
MudSystem%LENGT_MUDLINE(I)=MudSystem%LENGT_MUDLINE(I)*.3048 ! (m)
ENDDO


!===========================================================================
! MUDLINE STATIC LOSSES INPUT
!===========================================================================

! Height are in (meter)
MudSystem%Pumps_Height= 0.
MudSystem%STpipeGauge_Height= 2. !(m)
MudSystem%Pits_Height= 1. !(m)
MudSystem%ChokeManifold_Height= 1.*0.3048 !(ft to meter)
MudSystem%WellChokeExit_Height= BopStackSpecification%GroundLevel-BopStackSpecification%KillHeight












END

SUBROUTINE MUDLINE_LOSSES(MLnumber)
USE MudSystemVARIABLES
implicit none
integer I
INTEGER MLnumber
!===============================PIPE LOSS===================================
MUD(MLnumber)%Re_MUDline=MUD(MLnumber)%Q*6.30902e-5*MudSystem%DIAM_MUDLINE_INCH(MLnumber)*0.0254/(MudSystem%AREA_MUDLINE(MLnumber)*MUD(MLnumber)%nu) !<<<<<< nu: DOROST SHAVAD.ALAN DAR STARTUP SET SHODE
!write(*,*) 'MUD(MLnumber)%Re_MUDline=' , MUD(MLnumber)%Re_MUDline
! Q*6.30902e-5 for (gpm) to (m^3/sec)
if ( MUD(MLnumber)%Re_MUDline<Re_cr) then
MUD(MLnumber)%fric=64/ MUD(MLnumber)%Re_MUDline
else

MUD(MLnumber)%fric=1/(-1.8*log10((MudSystem%RELROUGH_MUDLINE(MLnumber)/3.7)**1.11+6.9/ MUD(MLnumber)%Re_MUDline))**2
endif

MUD(MLnumber)%fricloss=((MUD(MLnumber)%fric*(wdens*MUD(MLnumber)%Mud_SG*MudSystem%LENGT_MUDLINE(MLnumber)*(MUD(MLnumber)%Q*6.30902e-5/MudSystem%AREA_MUDLINE(MLnumber))**2))/(2*MudSystem%DIAM_MUDLINE_INCH(MLnumber)*0.0254))/6895


!==============================MINOR LOSS===================================

if (MudSystem%LF_MUDLINE(MLnumber)/=0) then
MUD(MLnumber)%minlosspa_MUDLINE=MudSystem%LF_MUDLINE(MLnumber)*wdens*MUD(MLnumber)%Mud_SG*(MUD(MLnumber)%Q*6.30902e-5/MudSystem%AREAMINOR_MUDLINE(MLnumber))**2/2 !(Pa)
MUD(MLnumber)%minloss_MUDLINE= MUD(MLnumber)%minlosspa_MUDLINE/6895 !(psi)
elseif (MudSystem%CV_MUDLINE(MLnumber)/=0) then
MUD(MLnumber)%minlosspa_MUDLINE=1000*MUD(MLnumber)%Mud_SG*((11.7*MUD(MLnumber)%Q*6.30902e-5*3600)/(MudSystem%CV_MUDLINE(MLnumber)))**2 !(pa)
MUD(MLnumber)%minloss_MUDLINE= MUD(MLnumber)%minlosspa_MUDLINE/6895 !(psi)
else
MUD(MLnumber)%minlosspa_MUDLINE=MudSystem%NOTE_MUDLINE(MLnumber)*1e5 !(pa)
MUD(MLnumber)%minloss_MUDLINE= MUD(MLnumber)%minlosspa_MUDLINE/6895 !(psi)
endif

!==========================STATIC & KINETIC LOSS=============================

MudSystem%String_Height= 50.*0.3048 !<<<<<<<<<<<<<<< (foot) to (meter). az khanom tarmigh
MUD(1)%static_loss=(MudSystem%String_Height- MudSystem%Pumps_Height)*0.0 !(MLnumber=1,,PumpsToString)
MUD(2)%static_loss=(MudSystem%String_Height- MudSystem%STpipeGauge_Height)*MUD(2)%Mud_SG*wdens*gravity/6895 ! (psi) (MLnumber=2,,STGaugeToString)
MUD(3)%static_loss=0. !(MLnumber=1,,WellToPits)
MUD(4)%static_loss=(MudSystem%ChokeManifold_Height- MudSystem%WellChokeExit_Height)*MUD(4)%Mud_SG*wdens*gravity/6895 !(MLnumber=4,,WellToChokeManifold)



! RAM(RNUMBER)%kinetic_loss1=MUD(MLnumber)%Mud_SG*MUD(MLnumber)%Mud_Density*(RAM(RNUMBER)%Q*6.30902e-5/((1/4.)*pi*(.72*0.254e-1)**2))**2/(2*6895) !(psi)

!============================TOTAL LOSS=======================================
MUD(MLnumber)%total_loss= MUD(MLnumber)%fricloss+ MUD(MLnumber)%minloss_MUDLINE+ MUD(MLnumber)%static_loss!+ RAM(RNUMBER)%kinetic_loss1 !(psi)

END
SUBROUTINE DEALLOCATE_ARRAYS_MudSystem()
USE MudSystemVARIABLES
implicit none
!===========================================================================
! RAMLINE MINOR LOSSES INPUT
!===========================================================================
if (allocated(MudSystem%MudMinors)) DEALLOCATE (MudSystem%MudMinors)
!===========================================================================
! RAMLINE PIPNING LOSSES INPUT
!===========================================================================
if (allocated(MudSystem%MINORDIAMETER_MUDLINE)) DEALLOCATE (MudSystem%MINORDIAMETER_MUDLINE)
if (allocated(MudSystem%AREAMINOR_MUDLINE)) DEALLOCATE (MudSystem%AREAMINOR_MUDLINE)
if (allocated(MudSystem%LF_MUDLINE)) DEALLOCATE (MudSystem%LF_MUDLINE)
if (allocated(MudSystem%CV_MUDLINE)) DEALLOCATE (MudSystem%CV_MUDLINE)
if (allocated(MudSystem%NOTE_MUDLINE)) DEALLOCATE (MudSystem%NOTE_MUDLINE)
!===========================================================================
! ANNULAR MINOR LOSSES INPUT
!===========================================================================
if (allocated(MudSystem%PIPINGS_MUDLINE)) DEALLOCATE (MudSystem%PIPINGS_MUDLINE)
!===========================================================================
! ANNULAR PIPNING LOSSES INPUT
!===========================================================================
if (allocated(MudSystem%DIAM_MUDLINE_INCH)) DEALLOCATE (MudSystem%DIAM_MUDLINE_INCH)
if (allocated(MudSystem%AREA_MUDLINE)) DEALLOCATE (MudSystem%AREA_MUDLINE)
if (allocated(MudSystem%LENGT_MUDLINE)) DEALLOCATE (MudSystem%LENGT_MUDLINE)
if (allocated(MudSystem%ROUGHNESS_MUDLINE)) DEALLOCATE (MudSystem%ROUGHNESS_MUDLINE)
if (allocated(MudSystem%RELROUGH_MUDLINE)) DEALLOCATE (MudSystem%RELROUGH_MUDLINE)
END
subroutine AddDynamicArray(array, value)
implicit none
REAL, allocatable, intent(inout) :: array(:)
REAL, intent(in) :: value
REAL, allocatable :: tempArr(:)
integer :: i, isize
!if(allocated(array)) then
! isize = size(array)
! allocate(tempArr(isize+1))
! do i=1,isize
! tempArr(i) = array(i)
! end do
! tempArr(isize+1) = value
! deallocate(array)
! call move_alloc(tempArr, array)
!else
! allocate(array(1))
! array(1) = value
!end if
end subroutine

+ 193
- 0
Equipments/MudSystem-old/MudSystem_Variables.f90 Целия файл

@@ -0,0 +1,193 @@
MODULE MudSystemVARIABLES

use DynamicDoubleArray
use DynamicIntegerArray
use CDownHoleVariables
use CBopControlPanelVariables
use CEquipmentsConstants
! ! use CSimulationVariables
use CAccumulatorVariables
use CBopStackVariables
use CChokeControlPanelVariables
use CStandPipeManifoldVariables
USE CReservoirVariables


IMPLICIT NONE

integer, parameter :: BlownThreshold = 10
REAL:: SG=1.12,WDENS=1000,GRAVITY=9.81,RE_CR=2000!,NU=9e-6
!specific gravity of liquid
!water density(kg/m^3)
PARAMETER PII=3.14159265
integer imud

type::MudSystemType
! temporary varibales for solving pressure jerks -- 1399-11-09
integer Pump1BlownCount, Pump2BlownCount, Pump3BlownCount

!integer Pump1BlownInTimeStep, Pump2BlownInTimeStep, Pump3BlownInTimeStep
!logical Pump1BlownStarted, Pump2BlownStarted, Pump3BlownStarted
!integer, parameter :: BlownThresholdInSecond = 5

real(8) total_add,total_injected
real(8) DeltaWellCap,WellCapOld,AnnCapOld,DeltaAnnCap

!========================================================================
! KICK VARIABLES
!========================================================================
REAL(8) KickDeltaVinAnnulus, KickVolumeinAnnulus
REAL(8) Kick_Forehead_X,Kick_RemainedVolume_in_LastSection,BackheadX,KickDv,KickDx,MinKickDv,Old_KickBackHead_X,Kick_Density
INTEGER NewInfluxElementCreated,Kick_Forehead_section,MudSection,Op_KickLoc,Ann_KickLoc,FirstSetKickMigration,Old_KickBackHead_Section
Integer iLoc,ChokeLine_KickLoc,KickNumber,NewInfluxNumber,SoundGasThroughChoke

LOGICAL DrillingMode
!real(8) HZ_ADD
integer Flow_timeCounter,MudSys_timeCounter,FluidFlowCounter
!========================================================================
! MUD CIRCULATION
!========================================================================
REAL(8), ALLOCATABLE:: Xstart_PipeSection(:),Xend_PipeSection(:),PipeSection_VolumeCapacity(:),Area_PipeSectionFt(:),OD_PipeSectionInch(:),ID_PipeSectionInch(:),Angle_PipeSection(:)
REAL(8), ALLOCATABLE:: Xstart_OpSection(:),Xend_OpSection(:),Area_OpSectionFt(:),OD_OpSectionInch(:),ID_OpSectionInch(:),OpSection_VolumeCapacity(:),GeoTypeOp(:),Angle_OpSection(:)
REAL(8), ALLOCATABLE:: TDXstart_MudElementArray(:) , TDXend_MudElementArray(:) , TDDensity_MudElementArray(:)

INTEGER, ALLOCATABLE:: GeoType(:)
real(8) StMudVolumeSum,St_MudSaved_Density,St_Saved_MudDischarged_Volume,St_Saved_MudDischarged_Volume_Final,MudVolume_InjectedToBH,MudVolume_InjectedFromAnn
real BitMudDensity
REAL(8) xx,NewVolume,UtubeEmptyVolume,NewDensity, MudCircVerticalDepth,TrueMinValue

REAL DirectionCoef
INTEGER isection,OpSection,SuctionMud,NoStringMudElements,ImudCount,NoCasingMudElements,NoHorizontalMudElements,AddedElementsToString
Integer TDNoHorizontalMudElements, TDNoStringMudElements, TDNoCasingMudElements
Integer istring,icasing,NoPipeSections,FirstMudSet
INTEGER NoBottomHoleMudElements,NoStringMudElementsForPlot,F_StringIntervalCounts_Old
INTEGER FirstSetUtube1,FirstSetUtube2,FirstAdded,NewPipeFilling,Hz_MudOrKick_Utube,UtubeFilling,totalLength
REAL(8) DeltaVolumeOp,DeltaVTemp,OldPosition,StringFlowRate,StringFlowRateFinal,AnnulusFlowRateFinal,TD_RemoveVolume_Remained,DeltaVolumePipe,DeltaVolumeAnnulusCapacity
REAL AnnulusFlowRate,ChokeLineFlowRate
Logical:: UtubePossibility,MudIsChanged,AddedPipe,UtubeMode1Activated,UtubeMode2Activated,WellisNOTFull,ChokeLineNOTFull
Logical:: ShoeLost,ShoeFractured,Kickexpansion_DueToMudLost,LostInTripOutIsDone
Integer UGBOSuccessionCounter, UGBOSuccessionCounterOld
REAL(8) Area_ChokeLineFt, ChokeLine_VolumeCapacity,TotalAddedVolume,LackageMudVolumeAfterFilling, LackageMudVolume, NewInflux_Density
real(8) DensityMixTol,Hz_Density_Utube,CuttingDensityMixTol,Op_Kick_Saved_Volume,Op_MudSaved_Density,Op_KickSaved_Density,Op_Saved_MudDischarged_Volume,OpMudVolumeSum,Op_NeededVolume_ToFill
real(8) Choke_Kick_Saved_Volume,Choke_Saved_MudDischarged_Volume,Choke_KickSaved_Density,Choke_MudSaved_Density,ChokeMudVolumeSum
integer Saved_Op_MudOrKick,Saved_Ann_MudOrKick,Saved_Choke_MudOrKick
real(8) Choke_Saved_MudDischarged_Volume_Final,Choke_Kick_Saved_Volume_Final
real(8) Qlost,FormationLostPressure,ShoeMudPressure,ShoeLostCoef, ShoeMudViscosity, ShoeMudDensity ,OldAnnulusCapacity
logical:: Ann_to_Choke_2mud
real(8) AnnMudVolumeSum,Ann_MudSaved_Density,Ann_KickSaved_Density,Ann_Saved_MudDischarged_Volume,Ann_Kick_Saved_Volume,Ann_Saved_MudDischarged_Volume_Final, Ann_Kick_Saved_Volume_Final
type(DynamicDoubleArrayType) :: Hz_MudDischarged_Volume,Hz_Mud_Backhead_X,Hz_Mud_Forehead_X,Hz_Density,Hz_RemainedVolume_in_LastSection,Hz_EmptyVolume_inBackheadLocation, &
Op_MudDischarged_Volume,Op_Mud_Backhead_X,Op_Mud_Forehead_X,Op_Density,Op_RemainedVolume_in_LastSection,Op_EmptyVolume_inBackheadLocation

type(DynamicDoubleArrayType) :: ChokeLine_MudDischarged_Volume,ChokeLine_Mud_Backhead_X,ChokeLine_Mud_Forehead_X,ChokeLine_Density,ChokeLine_RemainedVolume_in_LastSection, &
ChokeLine_EmptyVolume_inBackheadLocation


type(DynamicDoubleArrayType) :: St_MudDischarged_Volume,St_Mud_Backhead_X,St_Mud_Forehead_X,St_Density,St_RemainedVolume_in_LastSection, &
St_EmptyVolume_inBackheadLocation,Ann_MudDischarged_Volume,Ann_Mud_Backhead_X,Ann_Mud_Forehead_X, &
Ann_Density,Ann_RemainedVolume_in_LastSection,Ann_EmptyVolume_inBackheadLocation
type(DynamicIntegerArrayType) :: St_Mud_Backhead_section,St_Mud_Forehead_section,Ann_Mud_Backhead_section,Ann_Mud_Forehead_section,MudGeoType,Hz_Mud_Backhead_section,Hz_Mud_Forehead_section, &
Op_Mud_Backhead_section,Op_Mud_Forehead_section,Hz_MudOrKick,St_MudOrKick,Ann_MudOrKick,Op_MudOrKick,ChokeLine_MudOrKick,MudTypeOp_MudElement,MudType_MudElement

type(DynamicIntegerArrayType) :: ChokeLine_Mud_Backhead_section,ChokeLine_Mud_Forehead_section,Ann_CuttingMud

type(DynamicDoubleArrayType) :: Xend_MudElement,Xstart_MudElement,Density_MudElement,PipeID_MudElement,PipeOD_MudElement,Angle_MudElement, &
Xstart_OpMudElement,Xend_OpMudElement,Density_OpMudElement,PipeID_OpMudElement,PipeOD_OpMudElement!,Angle_OpMudElement
type(DynamicDoubleArrayType) :: TVDstart_MudElement, TVDend_MudElement, TVDstart_OpMudElement, TVDend_OpMudElement
type(CFluid), allocatable :: StringMudElement(:), CasingMudElement(:)


real(8) PressureGauge75,PressureGauge76

!========================================================================
! MALFUNCTION VARIABLES
!========================================================================
INTEGER StandPipeGauge1Malf, StandPipeGauge2Malf, StandPipePressure_DataDisplayMalf,StandPipePressureChokeMalf,DrillPipePressureMalf
integer TripTankPressure_DataDisplayMalf,PitGainLossGaugeMalf,ReturnMudFlowGaugeMalf,MudTanksVolumeGaugeMalf

!========================================================================
! TRIP TANK VARIABLES
!========================================================================
logical condition32Final,condition33Final,condition34Final
REAL(8) TripTank_Vol,TripTank_Dens,ReturnToTrip_Q,ActiveToTrip_Q,TripTankPump_Q,ReturnToTrip_Dens,ActiveToTrip_Dens,ReturnToTrip_deltaV,ActiveToTrip_deltaV
REAL(8) MassFlowRate_ReturnToTrip,MassFlowRate_ActiveToTrip,TripTankPump_deltaV,MassFlowRate_TripTankPump,NetMassFlux_tripTank
REAL(8) TripTank_MinVol_Allowded,TripTank_MaxVol_Allowded

!!======================================================================
!! MUD VOLUME TOTALIZER
!!======================================================================
REAL(8) RefrencePitVolume_DrillWatch ! for DrillWatch
REAL(8) MudTank1_vol,MudTank2_vol,MudTank3_vol,MudTank4_vol
REAL(8) MVT_MinVol_Allowded,MVT_MaxVol_Allowded,MudTanksVolume
REAL(8) PitGainLossZero,MVTCoarse,MVTFine,RefrencePitVolume,PitGainLossZero_Old,MVTCoarseKnob_Old,MVTFineKnob_Old
REAL(8) ActiveTankDensity,TripTankDensityCalc,SuctionDensity_Old,AnnulusSuctionDensity_Old,StringDensity_Old,ChokeLineDensity_Old,ChokeManifoldDumpVolume
LOGICAL FirstSet_Time

!!======================================================================
!! MUD FLOW-FILL INDICATOR
!!======================================================================
REAL(8) TotalStrokes1MFFI,TotalStrokes2MFFI,TotalStrokesPump1,TotalStrokesPump2,GraphTotalStrokes
REAL(8) PedalMeter,ReturnFlowRate,ReturnFlowPercent,MFFI_MinPercent_Allowded,MFFI_MaxPercent_Allowded
REAL(8) TotalFillStrokes1MFFI,TotalFillStrokes2MFFI,TotalFilledStrokesBy1MFFI,TotalFilledStrokesBy2MFFI,TotalFilledStrokesBy1and2MFFI

!============================================================================
! MUD & ENVIRONMENT VARIABLES
!============================================================================
INTEGER NO_MudMinors,NO_PIPINGSMUDLINE
REAL(8) Pumps_Height,String_Height,STpipeGauge_Height,Pits_Height,ChokeManifold_Height,WellChokeExit_Height
REAL(8) STGauge_Pressure,String_Input_Pressure,Well_Output_Pressure,Pressure_BeforeChokes,Pressure_AfterChokes
REAL(8) OpenArea32,OpenArea33,OpenArea34,OpenArea35,deltaPchoke,WellOutletDensity,ChokeOutletDensity
REAL Q_flow32,Q_flow33,Q_flow34,Q_flow35
REAL(8) DeltaT_Mudline,ActiveTankVolume,ReserveTankVolume,CementTankVolumeCalc,ActiveTankSettled,ActiveTankFloorArea,TripTankFloorArea
REAL(8) TripTankVolumeCalc,BellNippleDensity,BellNippleVolume,MudBucketDensity,MudBucketVolume,BellNippleDumpVolume
REAL(8) ReserveTankDensity,CementTankDensityCalc,Mp1Density,Mp2Density,Mp3Density,PumpsDumpVolume
real PumpsDumpFlowRate
REAL(8) Density_Ch
real(8) Suction_Density_MudSystem,Suction_Density_PumpsToWell,CompressedMudDensity
Logical WellToPitsOpen,WellToChokeManifoldOpen,MudChecked,WellHeadIsOpen
logical Pump1OffFailure,Pump2OffFailure,Pump3OffFailure,ChokeLineGaugeToTanks,WellToChokeLineGauge
REAL,ALLOCATABLE:: MudMinors(:,:),AREA_MUDLINE(:),MINORDIAMETER_MUDLINE(:),NOTE_MUDLINE(:),AREAMINOR_MUDLINE(:),LF_MUDLINE(:),CV_MUDLINE(:)
REAL,ALLOCATABLE:: DIAM_MUDLINE_INCH(:),LENGT_MUDLINE(:),ROUGHNESS_MUDLINE(:),RELROUGH_MUDLINE(:),PIPINGS_MUDLINE(:,:)
end type MudSystemType
type(MudSystemType)::MudSystem
TYPE, PUBLIC :: MUD_TypeVars
REAL Q,nu,Mud_Density,Mud_SG
REAL minlosspa_MUDLINE,minloss_MUDLINE ! MINORS
REAL Re_MUDline,fric,fricloss,static_loss,total_loss ! MUDLINE
END TYPE MUD_TypeVars
TYPE(MUD_TypeVars), DIMENSION(1:10) :: MUD
!MUD(1)%Q : -------------
!MUD(2)%Q : PumpsToString
!MUD(3)%Q : BellNippleToPits-FullWell
!MUD(4)%Q : WellToChokeManifold
!MUD(5)%Q : ActiveTankToTripTank
!MUD(6)%Q : TripTankToActiveTank
!MUD(7)%Q : WellToBellNipple
!MUD(8)%Q : BellNippleToWell-NonFullWell
!MUD(9)%Q : StandPipeManifoldToChokeManifold-Through ChokeLine
!MUD(10)%Q : PumpsToWell_KillLine
! TYPE, PUBLIC :: MUD_TypeVars2D
! !! MINORS
! !REAL,ALLOCATABLE:: minlosspa_MUDLINE(:,:),minloss_MUDLINE(:,:)
! !! MUDLINE
! !REAL,ALLOCATABLE:: Re_MUDline(:,:),fric(:,:),fricloss(:,:)
! END TYPE MUD_TypeVars2D
! TYPE(MUD_TypeVars2D) :: MUDS

END MODULE





+ 410
- 0
Equipments/MudSystem-old/Plot_Final_Mud_Elements.f90 Целия файл

@@ -0,0 +1,410 @@
subroutine PlotFinalMudElements ! is called in subroutine CirculationCodeSelect
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
Use TD_StringConnectionData
!USE CHOKEVARIABLES
!USE CDataDisplayConsoleVariables , StandPipePressureDataDisplay=>StandPipePressure
!use CManifolds
use CDrillWatchVariables
!use CHOKEVARIABLES
!use CChokeManifoldVariables
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
use KickVARIABLESModule
USE CKellyConnectionEnumVariables
use UTUBEVARSModule
use CLog1
Use CError
Use , intrinsic :: IEEE_Arithmetic
implicit none
integer jelement, jmud, jsection,ielement,i
integer jopelement,jopmud,jopsection
character(len=120) :: temp1, temp2

if (ChokeControlPanel%ChokePanelStrokeResetSwitch == 1) then
write(*,*) 'well cap=' , sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections)) + sum(MudSystem%OpSection_VolumeCapacity(1:F_Counts%BottomHoleIntervalCounts))
MudSystem%DeltaWellCap= sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections)) + sum(MudSystem%OpSection_VolumeCapacity(1:F_Counts%BottomHoleIntervalCounts)) - MudSystem%WellCapOld
MudSystem%WellCapOld= sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections)) + sum(MudSystem%OpSection_VolumeCapacity(1:F_Counts%BottomHoleIntervalCounts))
write(*,*) 'cap_reset,DeltaWellCap=' , MudSystem%DeltaWellCap
endif

!========================ANNULUS END=================
if ((MudSystem%Ann_Mud_Forehead_X%Last() - BopStackSpecification%AboveAnnularHeight) > 0.8 .or. MudSystem%Ann_Density%Last()==0.0) then ! for Line (BellNippleToWell-NonFullWell)
MudSystem%WellisNOTFull= .true.
else
MudSystem%WellisNOTFull= .false.
endif

!WRITE(*,*) 'Ann_Mud_Forehead_X%Last() , KillHeight', Ann_Mud_Forehead_X%Last() , KillHeight
if ((MudSystem%Ann_Mud_Forehead_X%Last() - BopStackSpecification%KillHeight)>0.8 .or. MudSystem%Ann_Density%Last()==0.0) then ! for Line j4 , WellToChokeManifold(Through 26)
MudSystem%ChokeLineNOTFull= .true.
else
MudSystem%ChokeLineNOTFull= .false.
endif

!=========================================================
jmud= 1
jsection= 1
jelement= 0 ! number of final mud elements

call MudSystem%Xend_MudElement%Empty()
call MudSystem%TVDend_MudElement%Empty()
call MudSystem%Density_MudElement%Empty()
call MudSystem%MudGeoType%Empty()
call MudSystem%PipeID_MudElement%Empty()
call MudSystem%PipeOD_MudElement%Empty()
!call Angle_MudElement%Empty()
call MudSystem%MudType_MudElement%Empty()

DO WHILE(jmud <= MudSystem%Hz_Mud_Forehead_X%Length() .and. jsection<=1)
jelement= jelement+1
MudSystem%TrueMinValue= min(MudSystem%Hz_Mud_Forehead_X%Array(jmud), MudSystem%Xend_PipeSection(jsection))

call MudSystem%Xend_MudElement%Add(MudSystem%TrueMinValue)
call TVD_Calculator(MudSystem%TrueMinValue,MudSystem%MudCircVerticalDepth)
call MudSystem%TVDend_MudElement%Add(MudSystem%MudCircVerticalDepth)
call MudSystem%Density_MudElement%Add(MudSystem%Hz_Density%Array(jmud))
call MudSystem%PipeID_MudElement%Add(MudSystem%ID_PipeSectionInch(jsection))
call MudSystem%PipeOD_MudElement%Add(MudSystem%OD_PipeSectionInch(jsection))
!call Angle_MudElement%Add(Angle_PipeSection(jsection))
call MudSystem%MudType_MudElement%Add(MudSystem%Hz_MudOrKick%Array(jmud))
if (MudSystem%Xend_MudElement%Array(jelement)== MudSystem%Hz_Mud_Forehead_X%Array(jmud)) then
jmud= jmud+1
else
jsection= jsection+1
endif
ENDDO
MudSystem%NoHorizontalMudElements= jelement

jmud= 1
jsection= 2
DO WHILE(jmud <= MudSystem%St_Mud_Forehead_X%Length() .and. jsection<=F_Counts%StringIntervalCounts)
jelement= jelement+1
MudSystem%TrueMinValue= min(MudSystem%St_Mud_Forehead_X%Array(jmud), MudSystem%Xend_PipeSection(jsection))

call MudSystem%Xend_MudElement%Add(MudSystem%TrueMinValue)
call TVD_Calculator(MudSystem%TrueMinValue,MudSystem%MudCircVerticalDepth)
call MudSystem%TVDend_MudElement%Add(MudSystem%MudCircVerticalDepth)
call MudSystem%Density_MudElement%Add(MudSystem%St_Density%Array(jmud))
call MudSystem%PipeID_MudElement%Add(MudSystem%ID_PipeSectionInch(jsection))
call MudSystem%PipeOD_MudElement%Add(MudSystem%OD_PipeSectionInch(jsection))
!call Angle_MudElement%Add(Angle_PipeSection(jsection))
call MudSystem%MudType_MudElement%Add(MudSystem%St_MudOrKick%Array(jmud))
if (MudSystem%Xend_MudElement%Array(jelement)== MudSystem%St_Mud_Forehead_X%Array(jmud)) then
jmud= jmud+1
else
jsection= jsection+1
endif
ENDDO

MudSystem%NoStringMudElements= jelement- MudSystem%NoHorizontalMudElements

jmud= 1
jsection= F_Counts%StringIntervalCounts+1
DO WHILE(jmud<= MudSystem%Ann_Mud_Forehead_X%Length() .and. jsection<=MudSystem%NoPipeSections)
jelement= jelement+1
MudSystem%TrueMinValue= max(MudSystem%Ann_Mud_Forehead_X%Array(jmud), MudSystem%Xend_PipeSection(jsection))

call MudSystem%Xend_MudElement%Add(MudSystem%TrueMinValue)
call TVD_Calculator(MudSystem%TrueMinValue,MudSystem%MudCircVerticalDepth)
call MudSystem%TVDend_MudElement%Add(MudSystem%MudCircVerticalDepth)
call MudSystem%Density_MudElement%Add(MudSystem%Ann_Density%Array(jmud))
call MudSystem%PipeID_MudElement%Add(MudSystem%ID_PipeSectionInch(jsection))
call MudSystem%PipeOD_MudElement%Add(MudSystem%OD_PipeSectionInch(jsection))
!call Angle_MudElement%Add(Angle_PipeSection(jsection))
call MudSystem%MudType_MudElement%Add(MudSystem%Ann_MudOrKick%Array(jmud))
if (MudSystem%Xend_MudElement%Array(jelement)== MudSystem%Ann_Mud_Forehead_X%Array(jmud)) then
jmud= jmud+1
else
jsection= jsection+1
endif
ENDDO
do i= 2, MudSystem%Xend_MudElement%Length()
if ( i== MudSystem%NoHorizontalMudElements+MudSystem%NoStringMudElements+1) then
call MudSystem%Xstart_MudElement%Add (MudSystem%Ann_Mud_Backhead_X%Array(1)) ! start of annulus
call TVD_Calculator(MudSystem%Ann_Mud_Backhead_X%Array(1),MudSystem%MudCircVerticalDepth)
call MudSystem%TVDstart_MudElement%Add(MudSystem%MudCircVerticalDepth)
elseif ( i== MudSystem%NoHorizontalMudElements+1 ) then
call MudSystem%Xstart_MudElement%Add (MudSystem%St_Mud_Backhead_X%Array(1)) ! start of stirng
call TVD_Calculator(MudSystem%St_Mud_Backhead_X%Array(1),MudSystem%MudCircVerticalDepth)
call MudSystem%TVDstart_MudElement%Add(MudSystem%MudCircVerticalDepth)
else
call MudSystem%Xstart_MudElement%Add(MudSystem%Xend_MudElement%Array(i-1)) ! normal calculation
call MudSystem%TVDstart_MudElement%Add(MudSystem%TVDend_MudElement%Array(i-1)) ! normal calculation
endif
enddo

MudSystem%NoCasingMudElements = jelement- MudSystem%NoStringMudElements- MudSystem%NoHorizontalMudElements
!=========================For Torque and Drag========================
if (allocated(MudSystem%TDXstart_MudElementArray)) deallocate(MudSystem%TDXstart_MudElementArray)
allocate(MudSystem%TDXstart_MudElementArray(MudSystem%NoHorizontalMudElements+MudSystem%NoStringMudElements+MudSystem%NoCasingMudElements))
if (allocated(MudSystem%TDXend_MudElementArray)) deallocate(MudSystem%TDXend_MudElementArray)
allocate(MudSystem%TDXend_MudElementArray(MudSystem%NoHorizontalMudElements+MudSystem%NoStringMudElements+MudSystem%NoCasingMudElements))
if (allocated(MudSystem%TDDensity_MudElementArray)) deallocate(MudSystem%TDDensity_MudElementArray)
allocate(MudSystem%TDDensity_MudElementArray(MudSystem%NoHorizontalMudElements+MudSystem%NoStringMudElements+MudSystem%NoCasingMudElements))
MudSystem%TDNoHorizontalMudElements= MudSystem%NoHorizontalMudElements
MudSystem%TDNoStringMudElements= MudSystem%NoStringMudElements
MudSystem%TDNoCasingMudElements= MudSystem%NoCasingMudElements

MudSystem%TDXstart_MudElementArray(:) = MudSystem%Xstart_MudElement%Array(:)
MudSystem%TDXend_MudElementArray(:) = MudSystem%Xend_MudElement%Array(:)
MudSystem%TDDensity_MudElementArray(:) = MudSystem%Density_MudElement%Array(:)
!=====================================================================
!do i=NoHorizontalMudElements+1, NoHorizontalMudElements+NoStringMudElements ! 2-string elements
! write(*,333) 'STRING:', i,'Xstart\=', Xstart_MudElement%Array(i), 'Xend=' , Xend_MudElement%Array(i), 'Density=' , Density_MudElement%Array(i), 'MudType=' , MudType_MudElement%Array(i)
!enddo
!================================================================
! Open Hole Mud Elements
jopmud= 1
jopsection= 1
jopelement= 0 ! number of final mud elements

call MudSystem%Xend_OpMudElement%Empty()
call MudSystem%TVDend_OpMudElement%Empty()
call MudSystem%Density_OpMudElement%Empty()
call MudSystem%PipeID_OpMudElement%Empty()
call MudSystem%PipeOD_OpMudElement%Empty()
!call Angle_OpMudElement%Empty()
call MudSystem%MudTypeOp_MudElement%Empty()

DO WHILE(jopmud<= MudSystem%Op_Mud_Forehead_X%Length() .and. jopsection<=F_Counts%BottomHoleIntervalCounts)
jopelement= jopelement+1
MudSystem%TrueMinValue= max(MudSystem%Op_Mud_Forehead_X%Array(jopmud), MudSystem%Xend_OpSection(jopsection))
call MudSystem%Xend_OpMudElement%Add(MudSystem%TrueMinValue)
call TVD_Calculator(MudSystem%TrueMinValue,MudSystem%MudCircVerticalDepth)
call MudSystem%TVDend_OpMudElement%Add(MudSystem%MudCircVerticalDepth)
call MudSystem%Density_OpMudElement%Add(MudSystem%Op_Density%Array(jopmud))
call MudSystem%PipeID_OpMudElement%Add(MudSystem%ID_OpSectionInch(jopsection))
call MudSystem%PipeOD_OpMudElement%Add(MudSystem%OD_OpSectionInch(jopsection))
!call Angle_MudElement%Add(Angle_PipeSection(jopsection))
call MudSystem%MudTypeOp_MudElement%Add(MudSystem%Op_MudOrKick%Array(jopmud))
if (MudSystem%Xend_OpMudElement%Array(jopelement)== MudSystem%Op_Mud_Forehead_X%Array(jopmud)) then
jopmud= jopmud+1
else
jopsection= jopsection+1
endif
ENDDO
do i= 2, MudSystem%Xend_OpMudElement%Length()
call MudSystem%Xstart_OpMudElement%Add(MudSystem%Xend_OpMudElement%Array(i-1))
call MudSystem%TVDstart_OpMudElement%Add(MudSystem%TVDend_OpMudElement%Array(i-1))
enddo

MudSystem%NoBottomHoleMudElements = jopelement
!================================================================
if(allocated(MudSystem%StringMudElement)) deallocate(MudSystem%StringMudElement)
allocate(MudSystem%StringMudElement(MudSystem%NoStringMudElements))
if(allocated(MudSystem%CasingMudElement)) deallocate(MudSystem%CasingMudElement)
allocate(MudSystem%CasingMudElement(MudSystem%NoCasingMudElements+MudSystem%NoBottomHoleMudElements))
MudSystem%istring=0
MudSystem%icasing=0
MudSystem%BitMudDensity= MudSystem%Density_MudElement%Array(MudSystem%NoHorizontalMudElements+MudSystem%NoStringMudElements) ! (for ROP module)
!================================================================
!============================ UTUBE =============================
!IF (UtubePossibility== .true. .and. Get_KellyConnection() /= KELLY_CONNECTION_STRING .and. WellHeadIsOpen) THEN
IF (MudSystem%UtubePossibility== .true. .and. TD_StConn%FluidStringConnectionMode==0 .and. MudSystem%WellHeadIsOpen .AND. NoGasPocket == 0) THEN
CALL WellPressureDataTransfer
!WRITE (*,*) ' U-Tube Done 1'
CALL Utube
!WRITE (*,*) ' U-Tube Done 2'
if (QUtubeInput> 0.0) call Utube1_and_TripIn
if (QUtubeOutput> 0.0) call Utube2_and_TripIn
END IF
!========================== UTUBE- end =========================
! do imud=1, st_MudDischarged_Volume%Length()
! write(*,*) 'st-plot:', imud, St_MudDischarged_Volume%Array(imud), St_Mud_Backhead_X%Array(imud) ,St_Mud_Forehead_X%Array(imud)
!enddo
!==================== Display ========================
!do i=1, St_MudOrKick%Length()
! write(*,555) i,'St_Volume(i), type=' ,St_MudDischarged_Volume%Array(i),St_MudOrKick%Array(i)
!
! IF (IEEE_Is_NaN(St_MudDischarged_Volume%Array(i))) call ErrorStop('NaN in St Volume-Plot')
! IF (St_MudDischarged_Volume%Array(i)<0.) call ErrorStop('St Volume <0' , St_MudDischarged_Volume%Array(i))
!enddo
IF (ANY(IEEE_Is_NaN(MudSystem%Op_MudDischarged_Volume%Array(:))) .OR. ANY(MudSystem%Op_MudDischarged_Volume%Array(:) <= 0.0)) THEN
do i = 1 , MudSystem%Op_MudOrKick%Length()
write(*,555) i,'Op_Volume(i), type=' ,MudSystem%Op_MudDischarged_Volume%Array(i) , MudSystem%Op_MudOrKick%Array(i) , MudSystem%Op_Density%Array(i)
end do
call ErrorStop('NaN in Op Volume-Plot or Op Volume <=0')
END IF
IF (ANY(IEEE_Is_NaN(MudSystem%Ann_MudDischarged_Volume%Array(:))) .OR. ANY(MudSystem%Ann_MudDischarged_Volume%Array(:) <= 0.0)) THEN
do i = 1 , MudSystem%Ann_MudOrKick%Length()
write(*,555) i,'Ann_Volume(i), type=' ,MudSystem%Ann_MudDischarged_Volume%Array(i) , MudSystem%Ann_MudOrKick%Array(i) , MudSystem%Ann_Density%Array(i)
end do
call ErrorStop('NaN in Ann Volume-Plot or Ann Volume <=0')
END IF
!do i=1, Ann_MudOrKick%Length()
! !write(*,555) i,'Ann_Volume(i), type=' ,Ann_MudDischarged_Volume%Array(i),Ann_MudOrKick%Array(i),Ann_Density%Array(i)
!
! IF (IEEE_Is_NaN(Ann_MudDischarged_Volume%Array(i))) call ErrorStop('NaN in Ann Volume-Plot')
! IF (Ann_MudDischarged_Volume%Array(i)<=0.) call ErrorStop('Ann Volume <=0' , Ann_MudDischarged_Volume%Array(i))
!enddo
555 FORMAT(I3,5X,A42,(f12.5),5X,I3,5X,(f12.5))
MudSystem%NoStringMudElementsForPlot= MudSystem%NoStringMudElements
! 1-Horizontal Mud Elements are not shown
!write(*,333) 'Horiz:', 1,'Xstart\=', Xstart_MudElement%Array(1), 'Xend=' , Xend_MudElement%Array(1), 'Density=' , Density_MudElement%Array(1), 'MudType=' , MudType_MudElement%Array(1)

do i=MudSystem%NoHorizontalMudElements+1, MudSystem%NoHorizontalMudElements+MudSystem%NoStringMudElements ! 2-string elements
if (MudSystem%Xend_MudElement%Array(i) <= 0.0) then
MudSystem%NoStringMudElementsForPlot= MudSystem%NoStringMudElementsForPlot-1
cycle
endif
MudSystem%istring= MudSystem%istring+1
MudSystem%StringMudElement(MudSystem%istring)%StartMd = MudSystem%Xstart_MudElement%Array(i)
MudSystem%StringMudElement(MudSystem%istring)%EndMd = MudSystem%Xend_MudElement%Array(i)
!StringMudElement(istring)%Id = PipeID_MudElement%Array(i)
!StringMudElement(istring)%Od = PipeOD_MudElement%Array(i)
MudSystem%StringMudElement(MudSystem%istring)%Density = MudSystem%Density_MudElement%Array(i)

if (MudSystem%MudType_MudElement%Array(i) == 104) then
MudSystem%MudType_MudElement%Array(i)= 4 ! air
elseif (MudSystem%MudType_MudElement%Array(i) > 0 .and. MudSystem%MudType_MudElement%Array(i) < 100) then ! all kicks
MudSystem%MudType_MudElement%Array(i)= 1 ! gas kick
endif

MudSystem%StringMudElement(MudSystem%istring)%MudType = MudSystem%MudType_MudElement%Array(i)
!write(*,333) 'STRING:', i,'Xstart\=', Xstart_MudElement%Array(i), 'Xend=' , Xend_MudElement%Array(i), 'Density=' , Density_MudElement%Array(i), 'MudType=' , MudType_MudElement%Array(i)
enddo

do i=MudSystem%Xend_MudElement%Length(), MudSystem%NoHorizontalMudElements+MudSystem%NoStringMudElements+1 , -1 ! 3-casing elements
MudSystem%icasing= MudSystem%icasing+1
MudSystem%CasingMudElement(MudSystem%icasing)%StartMd = MudSystem%Xend_MudElement%Array(i)
MudSystem%CasingMudElement(MudSystem%icasing)%EndMd = MudSystem%Xstart_MudElement%Array(i)
!CasingMudElement(icasing)%Id = PipeID_MudElement%Array(i)
!CasingMudElement(icasing)%Od = PipeOD_MudElement%Array(i)
!write(*,333) 'CASING:', i,'Xstart\=', Xstart_MudElement%Array(i), 'Xend=' , Xend_MudElement%Array(i), 'Density=' , Density_MudElement%Array(i), 'MudType=' , MudType_MudElement%Array(i)
!call Log_1(temp1)
!write(*,444) 'CASING:', i,'Xstart\=', Xstart_MudElement%Array(i), 'Xend=' , Xend_MudElement%Array(i), 'PipeID_MudElement%Array(i)=' , PipeID_MudElement%Array(i), 'PipeOD_MudElement%Array(i)=' , PipeOD_MudElement%Array(i)
MudSystem%CasingMudElement(MudSystem%icasing)%Density = MudSystem%Density_MudElement%Array(i)
if (MudSystem%MudType_MudElement%Array(i) == 104) then
MudSystem%MudType_MudElement%Array(i)= 4 ! air
elseif (MudSystem%MudType_MudElement%Array(i) > 0 .and. MudSystem%MudType_MudElement%Array(i) < 100) then
MudSystem%MudType_MudElement%Array(i)= 1 ! gas kick
endif
MudSystem%CasingMudElement(MudSystem%icasing)%MudType = MudSystem%MudType_MudElement%Array(i)
enddo
do i= MudSystem%NoBottomHoleMudElements, 1 , -1 ! 4-open hole elements
MudSystem%icasing= MudSystem%icasing+1
MudSystem%CasingMudElement(MudSystem%icasing)%StartMd = MudSystem%Xend_OpMudElement%Array(i)
MudSystem%CasingMudElement(MudSystem%icasing)%EndMd = MudSystem%Xstart_OpMudElement%Array(i)
!CasingMudElement(icasing)%Id = PipeID_OpMudElement%Array(i)
!CasingMudElement(icasing)%Od = PipeOD_OpMudElement%Array(i)
!write(*,333) 'OpenHole:',i,'Xstart\=', Xstart_OpMudElement%Array(i), 'Xend=' , Xend_OpMudElement%Array(i), 'Density=' , Density_OpMudElement%Array(i), 'MudType=' , MudTypeOp_MudElement%Array(i)
!call Log_1(temp2)
!write(*,444) 'OpenHole:',i,'Xstart\=', Xstart_OpMudElement%Array(i), 'Xend=' , Xend_OpMudElement%Array(i), 'PipeID_MudElement%Array(i)=' , PipeID_MudElement%Array(i), 'PipeOD_MudElement%Array(i)=' , PipeOD_MudElement%Array(i)
MudSystem%CasingMudElement(MudSystem%icasing)%Density = MudSystem%Density_OpMudElement%Array(i)
if (MudSystem%MudTypeOp_MudElement%Array(i) == 104) then
MudSystem%MudTypeOp_MudElement%Array(i)= 4 ! air
elseif (MudSystem%MudTypeOp_MudElement%Array(i) > 0 .and. MudSystem%MudTypeOp_MudElement%Array(i) < 100) then
MudSystem%MudTypeOp_MudElement%Array(i)= 1 ! gas kick
endif
MudSystem%CasingMudElement(MudSystem%icasing)%MudType = MudSystem%MudTypeOp_MudElement%Array(i)
enddo

333 FORMAT(A10,I3,5X,A8,(f12.5),5X,A8,(f12.5),5X,A8,(f12.5),5X,A8,I3)
444 FORMAT(A10,I2,5X,A8,(f12.3),5X,A8,(f12.3),5X,A8,(f12.3),5X,A8,(f12.3))
! shomare gozari be tartib HZ mud, ST mud, Casing
! shomare gzari OpenHole jodagane ast az 1
call SetStringFluids(MudSystem%NoStringMudElementsForPlot, MudSystem%StringMudElement) !for data display in string
call SetAnnalusFluids(MudSystem%NoCasingMudElements+MudSystem%NoBottomHoleMudElements, MudSystem%CasingMudElement) !for data display in casing


!===========================================================================================================================
!===========================================================================================================================


end subroutine PlotFinalMudElements

+ 1627
- 0
Equipments/MudSystem-old/Pump_and_Trip_In.f90
Файловите разлики са ограничени, защото са твърде много
Целия файл


+ 1364
- 0
Equipments/MudSystem-old/Trip_Out_andPump.f90
Файловите разлики са ограничени, защото са твърде много
Целия файл


+ 532
- 0
Equipments/MudSystem-old/Utube1_and_Trip_In.f90 Целия файл

@@ -0,0 +1,532 @@
SUBROUTINE Utube1_and_TripIn ! is called in subroutine CirculationCodeSelect string to annulus
use UTUBEVARSModule
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
USE sROP_Variables
use CDrillWatchVariables
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
Use CShoeVariables
Use CUnityOutputs
implicit none
write(*,*) 'Utube1 code'
!===========================================================WELL============================================================
!===========================================================WELL============================================================
MudSystem%UtubeMode1Activated= .true.
!write(*,*) 'QUTubeInput=' , QUTubeInput
!Qinput=5000.
MudSystem%StringFlowRate= QUTubeInput ! (gpm)
MudSystem%AnnulusFlowRate= QUTubeInput
MudSystem%StringFlowRateFinal= MudSystem%StringFlowRate
MudSystem%AnnulusFlowRateFinal= MudSystem%AnnulusFlowRate
!===========================================
if (MudSystem%FirstSetUtube1==0) then
! call St_MudDischarged_Volume%AddToFirst (REAL(sum(F_Interval(1:F_StringIntervalCounts)%Volume))) !startup initial
! call St_Mud_Backhead_X%AddToFirst (Xstart_PipeSection(1))
! call St_Mud_Backhead_section%AddToFirst (1)
! call St_Mud_Forehead_X%AddToFirst (Xend_PipeSection(F_StringIntervalCounts))
! call St_Mud_Forehead_section%AddToFirst (F_StringIntervalCounts)
! call MudSystem%St_Density%AddToFirst (REAL(ActiveDensity)) ! initial(ppg)
! call St_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call St_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
!
! call Ann_MudDischarged_Volume%AddToFirst (REAL(sum(F_Interval((F_StringIntervalCounts+F_BottomHoleIntervalCounts+1):F_IntervalsTotalCounts)%Volume))) !startup initial
! call Ann_Mud_Backhead_X%AddToFirst (Xstart_PipeSection(F_StringIntervalCounts+1))
! call Ann_Mud_Backhead_section%AddToFirst (F_StringIntervalCounts+1)
! call Ann_Mud_Forehead_X%AddToFirst (Xend_PipeSection(NoPipeSections))
! call Ann_Mud_Forehead_section%AddToFirst (NoPipeSections)
! call Ann_Density%AddToFirst (REAL(ActiveDensity)) ! initial(ppg)
! call Ann_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call Ann_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
!Hz_Density%Array(:)= 0.0 !commented
!Hz_MudOrKick%Array(:)= 104 !commented
MudSystem%Hz_Density_Utube= 0.0
MudSystem%Hz_MudOrKick_Utube= 104
MudSystem%FirstSetUtube1= 1
endif


!========================Horizontal PIPE ENTRANCE=================
!if (SuctionDensity_Old >= (ActiveDensity+0.05) .or. SuctionDensity_Old <= (ActiveDensity-0.05)) then ! new mud is pumped
! !ImudCount= ImudCount+1
! !SuctionMud= ImudCount
! call Hz_Density%AddToFirst (REAL(ActiveDensity)) !ActiveDensity : badan in moteghayer bayad avaz beshe
! call Hz_MudDischarged_Volume%AddToFirst (0.0d0)
! call Hz_Mud_Forehead_X%AddToFirst (Xstart_PipeSection(1))
! call Hz_Mud_Forehead_section%AddToFirst (1)
! call Hz_Mud_Backhead_X%AddToFirst (Xstart_PipeSection(1))
! call Hz_Mud_Backhead_section%AddToFirst (1)
! call Hz_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call Hz_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
! call Hz_MudOrKick%AddToFirst (0)
!
! SuctionDensity_Old= ActiveDensity
!endif

!========================Horizontal PIPE STRING=================

!commented
! Hz_MudDischarged_Volume%Array(1)= Hz_MudDischarged_Volume%Array(1)+ ((MudSystem%StringFlowRate/60.)*DeltaT_Mudline) !(gal)
!
!imud=0
! do while (imud < Hz_Mud_Forehead_X%Length())
! imud = imud + 1
!
! if (imud> 1) then
! Hz_Mud_Backhead_X%Array(imud)= Hz_Mud_Forehead_X%Array(imud-1)
! Hz_Mud_Backhead_section%Array(imud)= Hz_Mud_Forehead_section%Array(imud-1)
! endif
!
!
! DirectionCoef= (Xend_PipeSection(Hz_Mud_Backhead_section%Array(imud))-Xstart_PipeSection(Hz_Mud_Backhead_section%Array(imud))) &
! / ABS(Xend_PipeSection(Hz_Mud_Backhead_section%Array(imud))-Xstart_PipeSection(Hz_Mud_Backhead_section%Array(imud)))
! ! +1 for string , -1 for annulus
!
!
! Hz_EmptyVolume_inBackheadLocation%Array(imud)= DirectionCoef* (Xend_PipeSection(Hz_Mud_Backhead_section%Array(imud))- Hz_Mud_Backhead_X%Array(imud))* &
! Area_PipeSectionFt(Hz_Mud_Backhead_section%Array(imud)) !(ft^3)
! Hz_EmptyVolume_inBackheadLocation%Array(imud)= Hz_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948 ! ft^3 to gal
!
!
! if ( Hz_MudDischarged_Volume%Array(imud) <= Hz_EmptyVolume_inBackheadLocation%Array(imud)) then
! Hz_Mud_Forehead_section%Array(imud)= Hz_Mud_Backhead_section%Array(imud)
! Hz_Mud_Forehead_X%Array(imud)= Hz_Mud_Backhead_X%Array(imud)+ DirectionCoef*(Hz_MudDischarged_Volume%Array(imud)/7.48051948)/Area_PipeSectionFt(Hz_Mud_Backhead_section%Array(imud))
! ! 7.48 is for gal to ft^3
! else
!
! isection= Hz_Mud_Backhead_section%Array(imud)+1
! Hz_RemainedVolume_in_LastSection%Array(imud)= Hz_MudDischarged_Volume%Array(imud)- Hz_EmptyVolume_inBackheadLocation%Array(imud)
!
! do
! if (isection > 1) then ! (horizontal pipe exit)
! Hz_MudDischarged_Volume%Array(imud)= Hz_MudDischarged_Volume%Array(imud)- Hz_RemainedVolume_in_LastSection%Array(imud)
! Hz_Mud_Forehead_X%Array(imud)= Xend_PipeSection(1)
! Hz_Mud_Forehead_section%Array(imud)= 1
! if (Hz_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the string
! call Hz_MudDischarged_Volume%Remove (imud)
! call Hz_Mud_Backhead_X%Remove (imud)
! call Hz_Mud_Backhead_section%Remove (imud)
! call Hz_Mud_Forehead_X%Remove (imud)
! call Hz_Mud_Forehead_section%Remove (imud)
! call Hz_Density%Remove (imud)
! call Hz_RemainedVolume_in_LastSection%Remove (imud)
! call Hz_EmptyVolume_inBackheadLocation%Remove (imud)
! call Hz_MudOrKick%Remove (imud)
!
! endif
! exit
! endif
!
! xx= Hz_RemainedVolume_in_LastSection%Array(imud)/ PipeSection_VolumeCapacity(isection) !(gal)
!
! if (xx<= 1.0) then
! Hz_Mud_Forehead_section%Array(imud)= isection
! Hz_Mud_Forehead_X%Array(imud)= (xx * (Xend_PipeSection(isection)- Xstart_PipeSection(isection)))+ Xstart_PipeSection(isection)
! exit
! else
! Hz_RemainedVolume_in_LastSection%Array(imud)= Hz_RemainedVolume_in_LastSection%Array(imud)- PipeSection_VolumeCapacity(isection)
! isection= isection+ 1
!
!
! endif
!
! enddo
!
! endif
!
! enddo
!commented
!========================Horizontal PIPE END=================
!========================STRING ENTRANCE=================
!write(*,*) 'a) MudSystem%St_Density%Length()=' , MudSystem%St_Density%Length()
if (ABS(MudSystem%St_Density%First() - MudSystem%Hz_Density_Utube) >= MudSystem%DensityMixTol) then ! new mud is pumped
call MudSystem%St_Density%AddToFirst (MudSystem%Hz_Density_Utube)
call MudSystem%St_MudDischarged_Volume%AddToFirst (0.0d0)
call MudSystem%St_Mud_Forehead_X%AddToFirst (MudSystem%Xstart_PipeSection(2))
call MudSystem%St_Mud_Forehead_section%AddToFirst (2)
call MudSystem%St_Mud_Backhead_X%AddToFirst (MudSystem%Xstart_PipeSection(2))
call MudSystem%St_Mud_Backhead_section%AddToFirst (2)
call MudSystem%St_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
call MudSystem%St_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
call MudSystem%St_MudOrKick%AddToFirst (MudSystem%Hz_MudOrKick_Utube) ! Hz_MudOrKick%Last() = 104
!StringDensity_Old= Hz_Density_Utube
endif
!write(*,*) 'b) MudSystem%St_Density%Length()=' , MudSystem%St_Density%Length()
!write(*,*) 'b) MudSystem%St_Density%Array(1)=' , MudSystem%St_Density%Array(1)
!write(*,*) 'b) St_MudOrKick%Array(1)=' , St_MudOrKick%Array(1)

!========================STRING=================
!WRITE (*,*) 'Utube1 MudSystem%StringFlowRate', MudSystem%StringFlowRate
MudSystem%St_MudDischarged_Volume%Array(1)= MudSystem%St_MudDischarged_Volume%Array(1)+ ((MudSystem%StringFlowRate/60.d0)*MudSystem%DeltaT_Mudline) !(gal)
imud=0
do while (imud < MudSystem%St_Mud_Forehead_X%Length())
imud = imud + 1
if (imud> 1) then
MudSystem%St_Mud_Backhead_X%Array(imud)= MudSystem%St_Mud_Forehead_X%Array(imud-1)
MudSystem%St_Mud_Backhead_section%Array(imud)= MudSystem%St_Mud_Forehead_section%Array(imud-1)
endif
MudSystem%DirectionCoef= (MudSystem%Xend_PipeSection(MudSystem%St_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%St_Mud_Backhead_section%Array(imud))) &
/ ABS(MudSystem%Xend_PipeSection(MudSystem%St_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%St_Mud_Backhead_section%Array(imud)))
! +1 for string , -1 for annulus
MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%DirectionCoef* (MudSystem%Xend_PipeSection(MudSystem%St_Mud_Backhead_section%Array(imud))- MudSystem%St_Mud_Backhead_X%Array(imud))* &
MudSystem%Area_PipeSectionFt(MudSystem%St_Mud_Backhead_section%Array(imud)) !(ft^3)
MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948d0 ! ft^3 to gal

if ( MudSystem%St_MudDischarged_Volume%Array(imud) <= MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)) then
MudSystem%St_Mud_Forehead_section%Array(imud)= MudSystem%St_Mud_Backhead_section%Array(imud)
MudSystem%St_Mud_Forehead_X%Array(imud)= MudSystem%St_Mud_Backhead_X%Array(imud)+ MudSystem%DirectionCoef*(MudSystem%St_MudDischarged_Volume%Array(imud)/7.48051948d0)/MudSystem%Area_PipeSectionFt(MudSystem%St_Mud_Backhead_section%Array(imud))
! 7.48 is for gal to ft^3
else
MudSystem%isection= MudSystem%St_Mud_Backhead_section%Array(imud)+1
MudSystem%St_RemainedVolume_in_LastSection%Array(imud)= MudSystem%St_MudDischarged_Volume%Array(imud)- MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)
do
if (MudSystem%isection > F_Counts%StringIntervalCounts) then ! last pipe section(string exit) F_Counts%StringIntervalCounts includes Horizontal line
MudSystem%St_MudDischarged_Volume%Array(imud)= MudSystem%St_MudDischarged_Volume%Array(imud)- MudSystem%St_RemainedVolume_in_LastSection%Array(imud)
MudSystem%St_Mud_Forehead_X%Array(imud)= MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)
MudSystem%St_Mud_Forehead_section%Array(imud)= F_Counts%StringIntervalCounts
if (MudSystem%St_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the string
call RemoveStringMudArrays(imud)
endif
exit
endif
MudSystem%xx= MudSystem%St_RemainedVolume_in_LastSection%Array(imud)/ MudSystem%PipeSection_VolumeCapacity(MudSystem%isection) !(gal)
if (MudSystem%xx<= 1.0) then
MudSystem%St_Mud_Forehead_section%Array(imud)= MudSystem%isection
MudSystem%St_Mud_Forehead_X%Array(imud)= (MudSystem%xx * (MudSystem%Xend_PipeSection(MudSystem%isection)- MudSystem%Xstart_PipeSection(MudSystem%isection)))+ MudSystem%Xstart_PipeSection(MudSystem%isection)
exit
else
MudSystem%St_RemainedVolume_in_LastSection%Array(imud)= MudSystem%St_RemainedVolume_in_LastSection%Array(imud)- MudSystem%PipeSection_VolumeCapacity(MudSystem%isection)
MudSystem%isection= MudSystem%isection+ 1
endif

enddo
endif
enddo
!========================STRING END=================
!========================== tripping in for OP remove ===============================
!if (DeltaVolumeOp>0. .and. DeltaVolumeOp< Op_MudDischarged_Volume%Last()) then
! Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length())= Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length()) - DeltaVolumeOp
!else
! Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length()-1)= Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length()-1) - (DeltaVolumeOp-Op_MudDischarged_Volume%Last())
!
! call Op_MudDischarged_Volume%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Backhead_X%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Backhead_section%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Forehead_X%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Forehead_section%Remove (Op_MudDischarged_Volume%Length())
! call Op_Density%Remove (Op_MudDischarged_Volume%Length())
! call Op_RemainedVolume_in_LastSection%Remove (Op_MudDischarged_Volume%Length())
! call Op_EmptyVolume_inBackheadLocation%Remove (Op_MudDischarged_Volume%Length())
! call Op_MudOrKick%Remove (Op_MudDischarged_Volume%Length())
!endif
!

!============================= Bottom Hole ==============================
!Op_MudDischarged_Volume%Array(1)= Op_MudDischarged_Volume%Array(1)+ ((GasKickPumpFlowRate/60.)*DeltaT_Mudline) !(gal) due to KickFlux
imud=0
do while (imud < MudSystem%Op_Mud_Forehead_X%Length())
imud = imud + 1
if (imud> 1) then
MudSystem%Op_Mud_Backhead_X%Array(imud)= MudSystem%Op_Mud_Forehead_X%Array(imud-1)
MudSystem%Op_Mud_Backhead_section%Array(imud)= MudSystem%Op_Mud_Forehead_section%Array(imud-1)
endif
MudSystem%DirectionCoef= (MudSystem%Xend_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))) &
/ ABS(MudSystem%Xend_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud)))
! +1 for string , -1 for annulus
MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%DirectionCoef* (MudSystem%Xend_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))- MudSystem%Op_Mud_Backhead_X%Array(imud))* &
MudSystem%Area_OpSectionFt(MudSystem%Op_Mud_Backhead_section%Array(imud)) !(ft^3)
MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948d0 ! ft^3 to gal
if ( MudSystem%Op_MudDischarged_Volume%Array(imud) <= MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)) then
MudSystem%Op_Mud_Forehead_section%Array(imud)= MudSystem%Op_Mud_Backhead_section%Array(imud)
MudSystem%Op_Mud_Forehead_X%Array(imud)= MudSystem%Op_Mud_Backhead_X%Array(imud)+ MudSystem%DirectionCoef*(MudSystem%Op_MudDischarged_Volume%Array(imud)/7.48051948d0)/MudSystem%Area_OpSectionFt(MudSystem%Op_Mud_Backhead_section%Array(imud))
! 7.48 is for gal to ft^3
else
MudSystem%isection= MudSystem%Op_Mud_Backhead_section%Array(imud)+1
MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Op_MudDischarged_Volume%Array(imud)- MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)
do
if (MudSystem%isection > F_Counts%BottomHoleIntervalCounts) then ! last pipe section(well exit)
if( imud==1) MudSystem%KickDeltaVinAnnulus= MudSystem%Op_RemainedVolume_in_LastSection%Array(imud) ! Kick enters Annulus space
MudSystem%Op_MudDischarged_Volume%Array(imud)= MudSystem%Op_MudDischarged_Volume%Array(imud)- MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)
MudSystem%Op_Mud_Forehead_X%Array(imud)= MudSystem%Xend_OpSection(F_Counts%BottomHoleIntervalCounts)
MudSystem%Op_Mud_Forehead_section%Array(imud)= F_Counts%BottomHoleIntervalCounts
if (MudSystem%Op_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the well
call RemoveOpMudArrays(imud)
endif
exit
endif
MudSystem%xx= MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)/ MudSystem%OpSection_VolumeCapacity(MudSystem%isection) !(gal)
if (MudSystem%xx<= 1.0) then
MudSystem%Op_Mud_Forehead_section%Array(imud)= MudSystem%isection
MudSystem%Op_Mud_Forehead_X%Array(imud)= (MudSystem%xx * (MudSystem%Xend_OpSection(MudSystem%isection)- MudSystem%Xstart_OpSection(MudSystem%isection)))+ MudSystem%Xstart_OpSection(MudSystem%isection)
exit
else
MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)- MudSystem%OpSection_VolumeCapacity(MudSystem%isection)
MudSystem%isection= MudSystem%isection+ 1
endif

enddo
endif
if (MudSystem%Op_Mud_Forehead_X%Array(imud)== MudSystem%Xend_OpSection(F_Counts%BottomHoleIntervalCounts)) then
MudSystem%totalLength = MudSystem%Op_MudDischarged_Volume%Length()
do while(imud < MudSystem%totalLength)
!imud = imud + 1
call RemoveOpMudArrays(MudSystem%totalLength)
MudSystem%totalLength = MudSystem%totalLength - 1

enddo
exit !
endif

!WRITE(*,*) imud,'Op_MudDischarged_Volume%Array(imud)' , Op_MudDischarged_Volume%Array(imud), Op_Density%Array(imud)
enddo


!write(*,*) 'Op_Mud_Forehead_X%Length()' , Op_Mud_Forehead_X%Length()
!
! WRITE(*,*) 'Xend_PipeSection(F_StringIntervalCounts)' , Xend_PipeSection(F_StringIntervalCounts)
! WRITE(*,*) 'Op_Mud_Backhead_X%Array(1)' , Op_Mud_Backhead_X%Array(1)
! WRITE(*,*) 'Op_Mud_Forehead_X%Array(1)' , Op_Mud_Forehead_X%Array(1)
! WRITE(*,*) 'Op_Mud_Backhead_X%Array(2)' , Op_Mud_Backhead_X%Array(2)
! WRITE(*,*) 'Op_Mud_Forehead_X%Array(2)' , Op_Mud_Forehead_X%Array(2)
!========================Bottom Hole END=================
if (MudSystem%iLoc == 1) then
MudSystem%MudSection= F_Counts%StringIntervalCounts+1
MudSystem%BackheadX= MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts+1)
elseif (MudSystem%iLoc == 2) then
MudSystem%MudSection= MudSystem%Kick_Forehead_section
MudSystem%BackheadX= MudSystem%Kick_Forehead_X
endif
!========================ANNULUS ENTRANCE====================
!write(*,*) 'iloc=====' , iLoc
if ((ABS(MudSystem%AnnulusSuctionDensity_Old - MudSystem%St_Density%Last()) >= MudSystem%DensityMixTol) .OR. (MudSystem%DeltaVolumeOp == 0.0 .and. ABS(MudSystem%Ann_Density%Array(MudSystem%iLoc)-MudSystem%St_Density%Last())>=MudSystem%DensityMixTol .and. MudSystem%AnnulusFlowRate/=0.0d0) ) then ! new mud is pumped
call MudSystem%Ann_Density%AddTo (MudSystem%iLoc,MudSystem%St_Density%Last())
call MudSystem%Ann_MudDischarged_Volume%AddTo (MudSystem%iLoc,0.0d0)
call MudSystem%Ann_Mud_Forehead_X%AddTo (MudSystem%iLoc,MudSystem%BackheadX)
call MudSystem%Ann_Mud_Forehead_section%AddTo (MudSystem%iLoc,MudSystem%MudSection)
call MudSystem%Ann_Mud_Backhead_X%AddTo (MudSystem%iLoc,MudSystem%BackheadX)
call MudSystem%Ann_Mud_Backhead_section%AddTo (MudSystem%iLoc,MudSystem%MudSection)
call MudSystem%Ann_RemainedVolume_in_LastSection%AddTo (MudSystem%iLoc,0.0d0)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%AddTo (MudSystem%iLoc,0.0d0)
call MudSystem%Ann_MudOrKick%AddTo (MudSystem%iLoc,0)
call MudSystem%Ann_CuttingMud%AddTo (MudSystem%iLoc,0)
MudSystem%AnnulusSuctionDensity_Old= MudSystem%St_Density%Last()
MudSystem%MudIsChanged= .true.
endif

MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%iLoc)= MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%iLoc)+ ((MudSystem%AnnulusFlowRate/60.0d0)*MudSystem%DeltaT_Mudline) !(gal)
!========================Tripping In====================
!write(*,*) 'DeltaVolumeOp=' , DeltaVolumeOp
if (MudSystem%DeltaVolumeOp > 0.0 .and. MudSystem%MudIsChanged== .false.) then !.and. DrillingMode== .false.) then ! trip in mode(loole paeen)
!write(*,*) 'Tripping In'
MudSystem%NewDensity= (MudSystem%St_Density%Last()*((MudSystem%AnnulusFlowRate/60.)*MudSystem%DeltaT_Mudline)+MudSystem%Op_Density%Last()*MudSystem%DeltaVolumeOp)/(((MudSystem%AnnulusFlowRate/60.0d0)*MudSystem%DeltaT_Mudline)+MudSystem%DeltaVolumeOp)
MudSystem%NewVolume= ((MudSystem%AnnulusFlowRate/60.)*MudSystem%DeltaT_Mudline)+MudSystem%DeltaVolumeOp
!write(*,*) 'Ann_MudDischarged_Volume%Array(1)=', Ann_MudDischarged_Volume%Array(1), 'NewVolume=', NewVolume
if (abs(MudSystem%Ann_Density%Array(MudSystem%iLoc)-MudSystem%NewDensity)< MudSystem%DensityMixTol) then ! 1-Pockets are Merged - (ROP is 0)
MudSystem%Ann_Density%Array(MudSystem%iLoc)= (MudSystem%Ann_Density%Array(MudSystem%iLoc)*MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%iLoc)+MudSystem%NewDensity*MudSystem%NewVolume)/(MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%iLoc)+MudSystem%NewVolume)
MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%iLoc)= MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%iLoc)+MudSystem%DeltaVolumeOp
MudSystem%Ann_Mud_Forehead_X%Array(MudSystem%iLoc)= MudSystem%BackheadX
MudSystem%Ann_Mud_Forehead_section%Array(MudSystem%iLoc)= MudSystem%MudSection
MudSystem%Ann_Mud_Backhead_X%Array(MudSystem%iLoc)= MudSystem%BackheadX
MudSystem%Ann_Mud_Backhead_section%Array(MudSystem%iLoc)= MudSystem%MudSection
MudSystem%Ann_RemainedVolume_in_LastSection%Array(MudSystem%iLoc)= (0.0d0)
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(MudSystem%iLoc)= (0.0d0)
else ! 2-Merging conditions are not meeted, so new pocket
call MudSystem%Ann_Density%AddTo (MudSystem%iLoc,MudSystem%NewDensity)
call MudSystem%Ann_MudDischarged_Volume%AddTo (MudSystem%iLoc,MudSystem%NewVolume)
call MudSystem%Ann_Mud_Forehead_X%AddTo (MudSystem%iLoc,MudSystem%BackheadX)
call MudSystem%Ann_Mud_Forehead_section%AddTo (MudSystem%iLoc,MudSystem%MudSection)
call MudSystem%Ann_Mud_Backhead_X%AddTo (MudSystem%iLoc,MudSystem%BackheadX)
call MudSystem%Ann_Mud_Backhead_section%AddTo (MudSystem%iLoc,MudSystem%MudSection)
call MudSystem%Ann_RemainedVolume_in_LastSection%AddTo (MudSystem%iLoc,0.0d0)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%AddTo (MudSystem%iLoc,0.0d0)
call MudSystem%Ann_MudOrKick%AddTo (MudSystem%iLoc,0)
call MudSystem%Ann_CuttingMud%AddTo (MudSystem%iLoc,0)
endif
elseif (MudSystem%DeltaVolumeOp > 0.0 .and. MudSystem%MudIsChanged== .true. .and. ROP_Bit%RateOfPenetration==0.) then
MudSystem%Ann_Density%Array(MudSystem%iLoc)= MudSystem%NewDensity
MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%iLoc)= MudSystem%NewVolume
MudSystem%Ann_Mud_Forehead_X%Array(MudSystem%iLoc)= MudSystem%BackheadX
MudSystem%Ann_Mud_Forehead_section%Array(MudSystem%iLoc)= MudSystem%MudSection
MudSystem%Ann_Mud_Backhead_X%Array(MudSystem%iLoc)= MudSystem%BackheadX
MudSystem%Ann_Mud_Backhead_section%Array(MudSystem%iLoc)= MudSystem%MudSection
MudSystem%Ann_RemainedVolume_in_LastSection%Array(MudSystem%iLoc)= (0.0d0)
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(MudSystem%iLoc)= (0.0d0)
endif

!========================Tripping In - End====================
!======================== ANNULUS ====================
MudSystem%MudIsChanged= .false.
imud= 0

do while (imud < MudSystem%Ann_Mud_Forehead_X%Length())
imud = imud + 1
if (imud> 1) then
MudSystem%Ann_Mud_Backhead_X%Array(imud)= MudSystem%Ann_Mud_Forehead_X%Array(imud-1)
MudSystem%Ann_Mud_Backhead_section%Array(imud)= MudSystem%Ann_Mud_Forehead_section%Array(imud-1)
endif
! <<< Fracture Shoe Lost
IF ( MudSystem%ShoeLost .and. MudSystem%LostInTripOutIsDone== .false. .and. Shoe%ShoeDepth < MudSystem%Ann_Mud_Backhead_X%Array(imud) .and. Shoe%ShoeDepth >= MudSystem%Ann_Mud_Forehead_X%Array(imud) ) then
!write(*,*) 'ShoeLost imud,AnnVolume(imud), VolumeLost:' , imud,Ann_MudDischarged_Volume%Array(imud), (( Qlost/60.0d0)*DeltaT_Mudline)
MudSystem%Ann_MudDischarged_Volume%Array(imud)= MudSystem%Ann_MudDischarged_Volume%Array(imud)-((MudSystem%Qlost/60.0d0)*MudSystem%DeltaT_Mudline) !(gal)
if (MudSystem%Ann_MudDischarged_Volume%Array(imud) < 0.0) then
!write(*,*) 'mud is removed by shoe lost, imud=' , imud
call RemoveAnnulusMudArrays(imud)
imud= imud-1
cycle
endif
ENDIF
! Fracture Shoe Lost >>>
MudSystem%DirectionCoef= (MudSystem%Xend_PipeSection(MudSystem%Ann_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%Ann_Mud_Backhead_section%Array(imud))) &
/ ABS(MudSystem%Xend_PipeSection(MudSystem%Ann_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%Ann_Mud_Backhead_section%Array(imud)))
! +1 for string , -1 for annulus
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%DirectionCoef* (MudSystem%Xend_PipeSection(MudSystem%Ann_Mud_Backhead_section%Array(imud))- MudSystem%Ann_Mud_Backhead_X%Array(imud))* &
MudSystem%Area_PipeSectionFt(MudSystem%Ann_Mud_Backhead_section%Array(imud)) !(ft^3)
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948d0 ! ft^3 to gal
if ( MudSystem%Ann_MudDischarged_Volume%Array(imud) <= MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)) then
MudSystem%Ann_Mud_Forehead_section%Array(imud)= MudSystem%Ann_Mud_Backhead_section%Array(imud)
MudSystem%Ann_Mud_Forehead_X%Array(imud)= MudSystem%Ann_Mud_Backhead_X%Array(imud)+ MudSystem%DirectionCoef*(MudSystem%Ann_MudDischarged_Volume%Array(imud)/7.48051948d0)/MudSystem%Area_PipeSectionFt(MudSystem%Ann_Mud_Backhead_section%Array(imud))
! 7.48 is for gal to ft^3
else
MudSystem%isection= MudSystem%Ann_Mud_Backhead_section%Array(imud)+1
MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Ann_MudDischarged_Volume%Array(imud)- MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)
do
if (MudSystem%isection > MudSystem%NoPipeSections) then ! last pipe section(well exit)
MudSystem%Ann_MudDischarged_Volume%Array(imud)= MudSystem%Ann_MudDischarged_Volume%Array(imud)- MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)
MudSystem%Ann_Mud_Forehead_X%Array(imud)= MudSystem%Xend_PipeSection(MudSystem%NoPipeSections)
MudSystem%Ann_Mud_Forehead_section%Array(imud)= MudSystem%NoPipeSections
if (MudSystem%Ann_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the well
call RemoveAnnulusMudArrays(imud)
endif
exit
endif
MudSystem%xx= MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)/ MudSystem%PipeSection_VolumeCapacity(MudSystem%isection) !(gal)
if (MudSystem%xx<= 1.0) then
MudSystem%Ann_Mud_Forehead_section%Array(imud)= MudSystem%isection
MudSystem%Ann_Mud_Forehead_X%Array(imud)= (MudSystem%xx * (MudSystem%Xend_PipeSection(MudSystem%isection)- MudSystem%Xstart_PipeSection(MudSystem%isection)))+ MudSystem%Xstart_PipeSection(MudSystem%isection)
exit
else
MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)- MudSystem%PipeSection_VolumeCapacity(MudSystem%isection)
MudSystem%isection= MudSystem%isection+ 1
endif

enddo
endif
enddo
!========================ANNULUS END=================
!if ( WellisNOTFull == .false. ) then
! write(*,*) 'MudSystem%AnnulusFlowRate==' , MudSystem%AnnulusFlowRate
! call Set_FlowRate(real(100.*min(MudSystem%AnnulusFlowRate,PedalMeter)/(PedalMeter/10.), 8))
!
!
!endif

end subroutine Utube1_and_TripIn

+ 517
- 0
Equipments/MudSystem-old/Utube2_and_Trip_In.f90 Целия файл

@@ -0,0 +1,517 @@
SUBROUTINE Utube2_and_TripIn ! is called in subroutine CirculationCodeSelect annulus to string
use UTUBEVARSModule
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
USE Pumps_VARIABLES
use CDrillWatchVariables
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
Use CShoeVariables
implicit none
write(*,*) 'Utube2 code'
!===========================================================WELL============================================================
!===========================================================WELL============================================================
MudSystem%UtubeMode2Activated= .true.
write(*,*) 'QUtubeOutput=' , QUtubeOutput
!QUTubeInput=5000.
MudSystem%StringFlowRate= QUtubeOutput ! (gpm)
MudSystem%AnnulusFlowRate= QUtubeOutput
MudSystem%StringFlowRateFinal= MudSystem%StringFlowRate
MudSystem%AnnulusFlowRateFinal= MudSystem%AnnulusFlowRate
!===========================================
if (MudSystem%FirstSetUtube2==0) then
! call St_MudDischarged_Volume%AddToFirst (REAL(sum(F_Interval(1:F_StringIntervalCounts)%Volume))) !startup initial
! call St_Mud_Backhead_X%AddToFirst (Xstart_PipeSection(1))
! call St_Mud_Backhead_section%AddToFirst (1)
! call St_Mud_Forehead_X%AddToFirst (Xend_PipeSection(F_StringIntervalCounts))
! call St_Mud_Forehead_section%AddToFirst (F_StringIntervalCounts)
! call MudSystem%St_Density%AddToFirst (REAL(ActiveDensity)) ! initial(ppg)
! call St_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call St_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
!
! call Ann_MudDischarged_Volume%AddToFirst (REAL(sum(F_Interval((F_StringIntervalCounts+F_BottomHoleIntervalCounts+1):F_IntervalsTotalCounts)%Volume))) !startup initial
! call Ann_Mud_Backhead_X%AddToFirst (Xstart_PipeSection(F_StringIntervalCounts+1))
! call Ann_Mud_Backhead_section%AddToFirst (F_StringIntervalCounts+1)
! call Ann_Mud_Forehead_X%AddToFirst (Xend_PipeSection(NoPipeSections))
! call Ann_Mud_Forehead_section%AddToFirst (NoPipeSections)
! call Ann_Density%AddToFirst (REAL(ActiveDensity)) ! initial(ppg)
! call Ann_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call Ann_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
!Hz_Density%Array(:)= 0.0
!Hz_MudOrKick%Array(:)= 104
MudSystem%Hz_Density_Utube= 0.0
MudSystem%Hz_MudOrKick_Utube= 104
MudSystem%FirstSetUtube2= 1
endif

!========================Horizontal PIPE ENTRANCE=================
!if (SuctionDensity_Old >= (ActiveDensity+0.05) .or. SuctionDensity_Old <= (ActiveDensity-0.05)) then ! new mud is pumped
! !ImudCount= ImudCount+1
! !SuctionMud= ImudCount
! call Hz_Density%AddToFirst (REAL(ActiveDensity)) !ActiveDensity : badan in moteghayer bayad avaz beshe
! call Hz_MudDischarged_Volume%AddToFirst (0.0d0)
! call Hz_Mud_Forehead_X%AddToFirst (Xstart_PipeSection(1))
! call Hz_Mud_Forehead_section%AddToFirst (1)
! call Hz_Mud_Backhead_X%AddToFirst (Xstart_PipeSection(1))
! call Hz_Mud_Backhead_section%AddToFirst (1)
! call Hz_RemainedVolume_in_LastSection%AddToFirst (0.0d0)
! call Hz_EmptyVolume_inBackheadLocation%AddToFirst (0.0d0)
! call Hz_MudOrKick%AddToFirst (0)
! deltaV= 0.
!
! SuctionDensity_Old= ActiveDensity
!endif

!========================Horizontal PIPE STRING=================
!commented

! Hz_MudDischarged_Volume%Array(1)= Hz_MudDischarged_Volume%Array(1)+ ((MudSystem%StringFlowRate/60.)*DeltaT_Mudline) !(gal)
!
!imud=0
! do while (imud < Hz_Mud_Forehead_X%Length())
! imud = imud + 1
!
! if (imud> 1) then
! Hz_Mud_Backhead_X%Array(imud)= Hz_Mud_Forehead_X%Array(imud-1)
! Hz_Mud_Backhead_section%Array(imud)= Hz_Mud_Forehead_section%Array(imud-1)
! endif
!
!
! DirectionCoef= (Xend_PipeSection(Hz_Mud_Backhead_section%Array(imud))-Xstart_PipeSection(Hz_Mud_Backhead_section%Array(imud))) &
! / ABS(Xend_PipeSection(Hz_Mud_Backhead_section%Array(imud))-Xstart_PipeSection(Hz_Mud_Backhead_section%Array(imud)))
! ! +1 for string , -1 for annulus
!
!
! Hz_EmptyVolume_inBackheadLocation%Array(imud)= DirectionCoef* (Xend_PipeSection(Hz_Mud_Backhead_section%Array(imud))- Hz_Mud_Backhead_X%Array(imud))* &
! Area_PipeSectionFt(Hz_Mud_Backhead_section%Array(imud)) !(ft^3)
! Hz_EmptyVolume_inBackheadLocation%Array(imud)= Hz_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948 ! ft^3 to gal
!
!
! if ( Hz_MudDischarged_Volume%Array(imud) <= Hz_EmptyVolume_inBackheadLocation%Array(imud)) then
! Hz_Mud_Forehead_section%Array(imud)= Hz_Mud_Backhead_section%Array(imud)
! Hz_Mud_Forehead_X%Array(imud)= Hz_Mud_Backhead_X%Array(imud)+ DirectionCoef*(Hz_MudDischarged_Volume%Array(imud)/7.48051948)/Area_PipeSectionFt(Hz_Mud_Backhead_section%Array(imud))
! ! 7.48051948 is for gal to ft^3
! else
!
! isection= Hz_Mud_Backhead_section%Array(imud)+1
! Hz_RemainedVolume_in_LastSection%Array(imud)= Hz_MudDischarged_Volume%Array(imud)- Hz_EmptyVolume_inBackheadLocation%Array(imud)
!
! do
! if (isection > 1) then ! (horizontal pipe exit)
! Hz_MudDischarged_Volume%Array(imud)= Hz_MudDischarged_Volume%Array(imud)- Hz_RemainedVolume_in_LastSection%Array(imud)
! Hz_Mud_Forehead_X%Array(imud)= Xend_PipeSection(1)
! Hz_Mud_Forehead_section%Array(imud)= 1
! if (Hz_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the string
! call Hz_MudDischarged_Volume%Remove (imud)
! call Hz_Mud_Backhead_X%Remove (imud)
! call Hz_Mud_Backhead_section%Remove (imud)
! call Hz_Mud_Forehead_X%Remove (imud)
! call Hz_Mud_Forehead_section%Remove (imud)
! call Hz_Density%Remove (imud)
! call Hz_RemainedVolume_in_LastSection%Remove (imud)
! call Hz_EmptyVolume_inBackheadLocation%Remove (imud)
! call Hz_MudOrKick%Remove (imud)
! endif
! exit
! endif
!
! xx= Hz_RemainedVolume_in_LastSection%Array(imud)/ PipeSection_VolumeCapacity(isection) !(gal)
!
! if (xx<= 1.0) then
! Hz_Mud_Forehead_section%Array(imud)= isection
! Hz_Mud_Forehead_X%Array(imud)= (xx * (Xend_PipeSection(isection)- Xstart_PipeSection(isection)))+ Xstart_PipeSection(isection)
! exit
! else
! Hz_RemainedVolume_in_LastSection%Array(imud)= Hz_RemainedVolume_in_LastSection%Array(imud)- PipeSection_VolumeCapacity(isection)
! isection= isection+ 1
!
!
! endif
!
! enddo
!
! endif
!
! enddo
!commented
!========================Horizontal PIPE END=================

!========================ANNULUS ENTRANCE====================
if (ABS(MudSystem%AnnulusSuctionDensity_Old - MudSystem%Hz_Density_Utube) >= MudSystem%DensityMixTol ) then ! new mud is pumped
call MudSystem%Ann_Density%Add (MudSystem%Hz_Density_Utube)
call MudSystem%Ann_MudDischarged_Volume%Add (0.0d0)
call MudSystem%Ann_Mud_Forehead_X%Add (MudSystem%Xend_PipeSection(MudSystem%NoPipeSections))
call MudSystem%Ann_Mud_Forehead_section%Add (MudSystem%NoPipeSections)
call MudSystem%Ann_Mud_Backhead_X%Add (MudSystem%Xstart_PipeSection(MudSystem%NoPipeSections))
call MudSystem%Ann_Mud_Backhead_section%Add (MudSystem%NoPipeSections)
call MudSystem%Ann_RemainedVolume_in_LastSection%Add (0.0d0)
call MudSystem%Ann_EmptyVolume_inBackheadLocation%Add (0.0d0)
call MudSystem%Ann_MudOrKick%Add (MudSystem%Hz_MudOrKick_Utube) ! Hz_MudOrKick%Last() = 104
call MudSystem%Ann_CuttingMud%Add (0)
MudSystem%AnnulusSuctionDensity_Old= MudSystem%Hz_Density_Utube
endif
!========================ANNULUS====================

MudSystem%Ann_MudDischarged_Volume%Array(MudSystem%Ann_MudDischarged_Volume%Length())= MudSystem%Ann_MudDischarged_Volume%Last()+ ((MudSystem%AnnulusFlowRate/60.)*MudSystem%DeltaT_Mudline) !(gal)
imud= MudSystem%Ann_Mud_Forehead_X%Length() + 1

do while (imud > 1)
imud = imud - 1
if (imud< MudSystem%Ann_Mud_Forehead_X%Length()) then
MudSystem%Ann_Mud_Forehead_X%Array(imud)= MudSystem%Ann_Mud_Backhead_X%Array(imud+1)
MudSystem%Ann_Mud_Forehead_section%Array(imud)= MudSystem%Ann_Mud_Backhead_section%Array(imud+1)
endif

! <<< Fracture Shoe Lost
IF ( MudSystem%ShoeLost .and. MudSystem%LostInTripOutIsDone== .false. .and. Shoe%ShoeDepth < MudSystem%Ann_Mud_Backhead_X%Array(imud) .and. Shoe%ShoeDepth >= MudSystem%Ann_Mud_Forehead_X%Array(imud) ) then
!write(*,*) 'ShoeLost imud,AnnVolume(imud), VolumeLost:' , imud,Ann_MudDischarged_Volume%Array(imud), (( Qlost/60.0d0)*DeltaT_Mudline)
MudSystem%Ann_MudDischarged_Volume%Array(imud)= MudSystem%Ann_MudDischarged_Volume%Array(imud)-((MudSystem%Qlost/60.0d0)*MudSystem%DeltaT_Mudline) !(gal)
if (MudSystem%Ann_MudDischarged_Volume%Array(imud) < 0.0) then
!write(*,*) 'mud is removed by shoe lost, imud=' , imud
call RemoveAnnulusMudArrays(imud)
imud= imud-1
cycle
endif
ENDIF
! Fracture Shoe Lost >>>
MudSystem%DirectionCoef= (MudSystem%Xend_PipeSection(MudSystem%Ann_Mud_Forehead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%Ann_Mud_Forehead_section%Array(imud))) &
/ ABS(MudSystem%Xend_PipeSection(MudSystem%Ann_Mud_Forehead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%Ann_Mud_Forehead_section%Array(imud)))
! +1 for string , -1 for annulus
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%DirectionCoef* (MudSystem%Ann_Mud_Forehead_X%Array(imud)- MudSystem%Xstart_PipeSection(MudSystem%Ann_Mud_Forehead_section%Array(imud)))* &
MudSystem%Area_PipeSectionFt(MudSystem%Ann_Mud_Forehead_section%Array(imud)) !(ft^3)
MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948d0 ! ft^3 to gal

if ( MudSystem%Ann_MudDischarged_Volume%Array(imud) <= MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)) then
MudSystem%Ann_Mud_Backhead_section%Array(imud)= MudSystem%Ann_Mud_Forehead_section%Array(imud)
MudSystem%Ann_Mud_Backhead_X%Array(imud)= MudSystem%Ann_Mud_Forehead_X%Array(imud)- MudSystem%DirectionCoef*(MudSystem%Ann_MudDischarged_Volume%Array(imud)/7.48051948d0)/MudSystem%Area_PipeSectionFt(MudSystem%Ann_Mud_Forehead_section%Array(imud))
! 7.48051948 is for gal to ft^3
else
MudSystem%isection= MudSystem%Ann_Mud_Forehead_section%Array(imud)-1
MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Ann_MudDischarged_Volume%Array(imud)- MudSystem%Ann_EmptyVolume_inBackheadLocation%Array(imud)
do
if (MudSystem%isection < F_Counts%StringIntervalCounts+1) then ! last pipe section(well exit) F_Counts%StringIntervalCounts+1 is the first section in Annulus
MudSystem%Ann_MudDischarged_Volume%Array(imud)= MudSystem%Ann_MudDischarged_Volume%Array(imud)- MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)
MudSystem%Ann_Mud_Backhead_X%Array(imud)= MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts+1)
MudSystem%Ann_Mud_Backhead_section%Array(imud)= F_Counts%StringIntervalCounts+1
if (MudSystem%Ann_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the well
call RemoveAnnulusMudArrays(imud)
endif
exit
endif
MudSystem%xx= MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)/ MudSystem%PipeSection_VolumeCapacity(MudSystem%isection) !(gal)
if (MudSystem%xx<= 1.0) then
MudSystem%Ann_Mud_Backhead_section%Array(imud)= MudSystem%isection
MudSystem%Ann_Mud_Backhead_X%Array(imud)= (MudSystem%xx * (MudSystem%Xstart_PipeSection(MudSystem%isection)- MudSystem%Xend_PipeSection(MudSystem%isection)))+ MudSystem%Xend_PipeSection(MudSystem%isection)
exit
else
MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Ann_RemainedVolume_in_LastSection%Array(imud)- MudSystem%PipeSection_VolumeCapacity(MudSystem%isection)
MudSystem%isection= MudSystem%isection- 1
endif

enddo
endif
enddo
!========================ANNULUS END=================
!========================== tripping in for OP remove ===============================
!if (DeltaVolumeOp>0. .and. DeltaVolumeOp< Op_MudDischarged_Volume%Last()) then
! Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length())= Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length()) - DeltaVolumeOp
!else
! Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length()-1)= Op_MudDischarged_Volume%Array(Op_MudDischarged_Volume%Length()-1) - (DeltaVolumeOp-Op_MudDischarged_Volume%Last())
!
! call Op_MudDischarged_Volume%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Backhead_X%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Backhead_section%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Forehead_X%Remove (Op_MudDischarged_Volume%Length())
! call Op_Mud_Forehead_section%Remove (Op_MudDischarged_Volume%Length())
! call Op_Density%Remove (Op_MudDischarged_Volume%Length())
! call Op_RemainedVolume_in_LastSection%Remove (Op_MudDischarged_Volume%Length())
! call Op_EmptyVolume_inBackheadLocation%Remove (Op_MudDischarged_Volume%Length())
! call Op_MudOrKick%Remove (Op_MudDischarged_Volume%Length())
!endif
!

!============================= Bottom Hole ==============================
!Op_MudDischarged_Volume%Array(1)= Op_MudDischarged_Volume%Array(1)+ ((GasKickPumpFlowRate/60.)*DeltaT_Mudline) !(gal) due to KickFlux
imud=0
do while (imud < MudSystem%Op_Mud_Forehead_X%Length())
imud = imud + 1
if (imud> 1) then
MudSystem%Op_Mud_Backhead_X%Array(imud)= MudSystem%Op_Mud_Forehead_X%Array(imud-1)
MudSystem%Op_Mud_Backhead_section%Array(imud)= MudSystem%Op_Mud_Forehead_section%Array(imud-1)
endif
MudSystem%DirectionCoef= (MudSystem%Xend_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))) &
/ ABS(MudSystem%Xend_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))-MudSystem%Xstart_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud)))
! +1 for string , -1 for annulus
MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%DirectionCoef* (MudSystem%Xend_OpSection(MudSystem%Op_Mud_Backhead_section%Array(imud))- MudSystem%Op_Mud_Backhead_X%Array(imud))* &
MudSystem%Area_OpSectionFt(MudSystem%Op_Mud_Backhead_section%Array(imud)) !(ft^3)
MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948d0 ! ft^3 to gal
if ( MudSystem%Op_MudDischarged_Volume%Array(imud) <= MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)) then
MudSystem%Op_Mud_Forehead_section%Array(imud)= MudSystem%Op_Mud_Backhead_section%Array(imud)
MudSystem%Op_Mud_Forehead_X%Array(imud)= MudSystem%Op_Mud_Backhead_X%Array(imud)+ MudSystem%DirectionCoef*(MudSystem%Op_MudDischarged_Volume%Array(imud)/7.48051948d0)/MudSystem%Area_OpSectionFt(MudSystem%Op_Mud_Backhead_section%Array(imud))
! 7.48051948 is for gal to ft^3
else
MudSystem%isection= MudSystem%Op_Mud_Backhead_section%Array(imud)+1
MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Op_MudDischarged_Volume%Array(imud)- MudSystem%Op_EmptyVolume_inBackheadLocation%Array(imud)
do
if (MudSystem%isection > F_Counts%BottomHoleIntervalCounts) then ! last pipe section(well exit)
if( imud==1) MudSystem%KickDeltaVinAnnulus= MudSystem%Op_RemainedVolume_in_LastSection%Array(imud) ! Kick enters Annulus space
MudSystem%Op_MudDischarged_Volume%Array(imud)= MudSystem%Op_MudDischarged_Volume%Array(imud)- MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)
MudSystem%Op_Mud_Forehead_X%Array(imud)= MudSystem%Xend_OpSection(F_Counts%BottomHoleIntervalCounts)
MudSystem%Op_Mud_Forehead_section%Array(imud)= F_Counts%BottomHoleIntervalCounts
if (MudSystem%Op_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the well
call RemoveOpMudArrays(imud)
endif
exit
endif
MudSystem%xx= MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)/ MudSystem%OpSection_VolumeCapacity(MudSystem%isection) !(gal)
if (MudSystem%xx<= 1.0) then
MudSystem%Op_Mud_Forehead_section%Array(imud)= MudSystem%isection
MudSystem%Op_Mud_Forehead_X%Array(imud)= (MudSystem%xx * (MudSystem%Xend_OpSection(MudSystem%isection)- MudSystem%Xstart_OpSection(MudSystem%isection)))+ MudSystem%Xstart_OpSection(MudSystem%isection)
exit
else
MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)= MudSystem%Op_RemainedVolume_in_LastSection%Array(imud)- MudSystem%OpSection_VolumeCapacity(MudSystem%isection)
MudSystem%isection= MudSystem%isection+ 1
endif

enddo
endif
if (MudSystem%Op_Mud_Forehead_X%Array(imud)== MudSystem%Xend_OpSection(F_Counts%BottomHoleIntervalCounts)) then
MudSystem%totalLength = MudSystem%Op_MudDischarged_Volume%Length()
do while(imud < MudSystem%totalLength)
!imud = imud + 1
call RemoveOpMudArrays(MudSystem%totalLength)
MudSystem%totalLength = MudSystem%totalLength - 1

enddo
exit !
endif

!WRITE(*,*) imud,'Op_MudDischarged_Volume%Array(imud)' , Op_MudDischarged_Volume%Array(imud), Op_Density%Array(imud)

enddo


!write(*,*) 'Op_Mud_Forehead_X%Length()' , Op_Mud_Forehead_X%Length()
!
! WRITE(*,*) 'Xend_PipeSection(F_StringIntervalCounts)' , Xend_PipeSection(F_StringIntervalCounts)
! WRITE(*,*) 'Op_Mud_Backhead_X%Array(1)' , Op_Mud_Backhead_X%Array(1)
! WRITE(*,*) 'Op_Mud_Forehead_X%Array(1)' , Op_Mud_Forehead_X%Array(1)
! WRITE(*,*) 'Op_Mud_Backhead_X%Array(2)' , Op_Mud_Backhead_X%Array(2)
! WRITE(*,*) 'Op_Mud_Forehead_X%Array(2)' , Op_Mud_Forehead_X%Array(2)
!========================Bottom Hole END=================
! NO KICK
!========================STRING ENTRANCE=================
if ((ABS(MudSystem%St_Density%Last() - MudSystem%Ann_Density%First()) >= MudSystem%DensityMixTol) .OR. (MudSystem%DeltaVolumeOp == 0.0 .and. MudSystem%St_Density%Last() /= MudSystem%Ann_Density%Array(1) .and. MudSystem%StringFlowRate/=0.0d0)) then ! new mud is pumped

!if ((ABS(StringDensity_Old - Ann_Density%First()) >= DensityMixTol) .OR. (DeltaVolumeOp == 0.0 .and. MudSystem%St_Density%Last() /= Ann_Density%Array(1) .and. MudSystem%StringFlowRate/=0.0d0)) then ! new mud is pumped
call MudSystem%St_Density%Add (MudSystem%Ann_Density%First())
call MudSystem%St_MudDischarged_Volume%Add (0.0d0)
call MudSystem%St_Mud_Forehead_X%Add (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts))
call MudSystem%St_Mud_Forehead_section%Add (F_Counts%StringIntervalCounts)
call MudSystem%St_Mud_Backhead_X%Add (MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts))
call MudSystem%St_Mud_Backhead_section%Add (F_Counts%StringIntervalCounts)
call MudSystem%St_RemainedVolume_in_LastSection%Add (0.0d0)
call MudSystem%St_EmptyVolume_inBackheadLocation%Add (0.0d0)
call MudSystem%St_MudOrKick%Add (0)
!StringDensity_Old= Ann_Density%First()
MudSystem%MudIsChanged= .true.
endif

MudSystem%St_MudDischarged_Volume%Array(MudSystem%St_MudDischarged_Volume%Length())= MudSystem%St_MudDischarged_Volume%Last()+ ((MudSystem%StringFlowRate/60.0d0)*MudSystem%DeltaT_Mudline) !(gal)

!========================Tripping In====================
!write(*,*) 'DeltaVolumeOp=' , DeltaVolumeOp
write(*,*) 'DeltaVolumeOp=' , MudSystem%DeltaVolumeOp
if (MudSystem%DeltaVolumeOp > 0.0 .and. MudSystem%MudIsChanged== .false.) then !.and. DrillingMode== .false.) then ! trip in mode(loole paeen)
!write(*,*) 'Tripping In'
MudSystem%NewDensity= (MudSystem%Ann_Density%First()*((MudSystem%StringFlowRate/60.0d0)*MudSystem%DeltaT_Mudline)+MudSystem%Op_Density%Last()*MudSystem%DeltaVolumeOp)/(((MudSystem%StringFlowRate/60.0d0)*MudSystem%DeltaT_Mudline)+MudSystem%DeltaVolumeOp)
MudSystem%NewVolume= ((MudSystem%StringFlowRate/60.0d0)*MudSystem%DeltaT_Mudline)+MudSystem%DeltaVolumeOp

!write(*,*) 'St_MudDischarged_Volume%Last()=', St_MudDischarged_Volume%Last(), 'NewVolume=', NewVolume

if (abs(MudSystem%St_Density%Last()-MudSystem%NewDensity)< MudSystem%DensityMixTol) then ! .OR. (St_MudDischarged_Volume%Last()< 42.) ) then !+ NewVolume)< 42.) then ! 1-Pockets are Merged
MudSystem%St_Density%Array(MudSystem%St_Density%Length())= (MudSystem%St_Density%Last()*MudSystem%St_MudDischarged_Volume%Last()+MudSystem%NewDensity*MudSystem%NewVolume)/(MudSystem%St_MudDischarged_Volume%Last()+MudSystem%NewVolume)
MudSystem%St_MudDischarged_Volume%Array(MudSystem%St_Density%Length())= MudSystem%St_MudDischarged_Volume%Last()+MudSystem%DeltaVolumeOp
MudSystem%St_Mud_Forehead_X%Array(MudSystem%St_Density%Length())= (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts))
MudSystem%St_Mud_Forehead_section%Array(MudSystem%St_Density%Length())= (F_Counts%StringIntervalCounts)
MudSystem%St_Mud_Backhead_X%Array(MudSystem%St_Density%Length())= (MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts))
MudSystem%St_Mud_Backhead_section%Array(MudSystem%St_Density%Length())= (F_Counts%StringIntervalCounts)
MudSystem%St_RemainedVolume_in_LastSection%Array(MudSystem%St_Density%Length())= (0.0d0)
MudSystem%St_EmptyVolume_inBackheadLocation%Array(MudSystem%St_Density%Length())= (0.0d0)
else ! 2-Merging conditions are not meeted, so new pocket
call MudSystem%St_Density%Add (MudSystem%NewDensity)
call MudSystem%St_MudDischarged_Volume%Add (MudSystem%NewVolume)
call MudSystem%St_Mud_Forehead_X%Add (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts))
call MudSystem%St_Mud_Forehead_section%Add (F_Counts%StringIntervalCounts)
call MudSystem%St_Mud_Backhead_X%Add (MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts))
call MudSystem%St_Mud_Backhead_section%Add (F_Counts%StringIntervalCounts)
call MudSystem%St_RemainedVolume_in_LastSection%Add (0.0d0)
call MudSystem%St_EmptyVolume_inBackheadLocation%Add (0.0d0)
call MudSystem%St_MudOrKick%Add (0)
endif

elseif (MudSystem%DeltaVolumeOp > 0.0 .and. MudSystem%MudIsChanged== .true.) then
MudSystem%St_Density%Array(MudSystem%St_Density%Length())= MudSystem%NewDensity
MudSystem%St_MudDischarged_Volume%Array(MudSystem%St_Density%Length())= MudSystem%NewVolume
MudSystem%St_Mud_Forehead_X%Array(MudSystem%St_Density%Length())= (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts))
MudSystem%St_Mud_Forehead_section%Array(MudSystem%St_Density%Length())= (F_Counts%StringIntervalCounts)
MudSystem%St_Mud_Backhead_X%Array(MudSystem%St_Density%Length())= (MudSystem%Xstart_PipeSection(F_Counts%StringIntervalCounts))
MudSystem%St_Mud_Backhead_section%Array(MudSystem%St_Density%Length())= (F_Counts%StringIntervalCounts)
MudSystem%St_RemainedVolume_in_LastSection%Array(MudSystem%St_Density%Length())= (0.0d0)
MudSystem%St_EmptyVolume_inBackheadLocation%Array(MudSystem%St_Density%Length())= (0.0d0)
endif
!========================Tripping In - End====================
!======================== STRING ====================
MudSystem%MudIsChanged= .false.
imud= MudSystem%St_Mud_Forehead_X%Length() + 1

do while (imud > 1)
imud = imud - 1
if (imud< MudSystem%St_Mud_Forehead_X%Length()) then
MudSystem%St_Mud_Forehead_X%Array(imud)= MudSystem%St_Mud_Backhead_X%Array(imud+1)
MudSystem%St_Mud_Forehead_section%Array(imud)= MudSystem%St_Mud_Backhead_section%Array(imud+1)
endif
MudSystem%DirectionCoef= (MudSystem%Xend_PipeSection(MudSystem%St_Mud_Forehead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%St_Mud_Forehead_section%Array(imud))) &
/ ABS(MudSystem%Xend_PipeSection(MudSystem%St_Mud_Forehead_section%Array(imud))-MudSystem%Xstart_PipeSection(MudSystem%St_Mud_Forehead_section%Array(imud)))
! +1 for string , -1 for annulus
MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%DirectionCoef* (MudSystem%St_Mud_Forehead_X%Array(imud)- MudSystem%Xstart_PipeSection(MudSystem%St_Mud_Forehead_section%Array(imud)))* &
MudSystem%Area_PipeSectionFt(MudSystem%St_Mud_Backhead_section%Array(imud)) !(ft^3)
MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)= MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)* 7.48051948d0 ! ft^3 to gal

if ( MudSystem%St_MudDischarged_Volume%Array(imud) <= MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)) then
MudSystem%St_Mud_Backhead_section%Array(imud)= MudSystem%St_Mud_Forehead_section%Array(imud)
MudSystem%St_Mud_Backhead_X%Array(imud)= MudSystem%St_Mud_Forehead_X%Array(imud)- MudSystem%DirectionCoef*(MudSystem%St_MudDischarged_Volume%Array(imud)/7.48051948d0)/MudSystem%Area_PipeSectionFt(MudSystem%St_Mud_Forehead_section%Array(imud))
! 7.48051948 is for gal to ft^3
else
MudSystem%isection= MudSystem%St_Mud_Backhead_section%Array(imud)-1
MudSystem%St_RemainedVolume_in_LastSection%Array(imud)= MudSystem%St_MudDischarged_Volume%Array(imud)- MudSystem%St_EmptyVolume_inBackheadLocation%Array(imud)
do
if (MudSystem%isection < 1) then ! last pipe section(string exit)
MudSystem%St_MudDischarged_Volume%Array(imud)= MudSystem%St_MudDischarged_Volume%Array(imud)- MudSystem%St_RemainedVolume_in_LastSection%Array(imud)
MudSystem%St_Mud_Backhead_X%Array(imud)= MudSystem%Xstart_PipeSection(2)
MudSystem%St_Mud_Backhead_section%Array(imud)= 2
if (MudSystem%St_MudDischarged_Volume%Array(imud)<= 0.0d0) then ! imud is completely exited form the string
call RemoveStringMudArrays(imud)
endif
exit
endif
MudSystem%xx= MudSystem%St_RemainedVolume_in_LastSection%Array(imud)/ MudSystem%PipeSection_VolumeCapacity(MudSystem%isection) !(gal)
if (MudSystem%xx<= 1.0) then
MudSystem%St_Mud_Backhead_section%Array(imud)= MudSystem%isection
MudSystem%St_Mud_Backhead_X%Array(imud)= (MudSystem%xx * (MudSystem%Xstart_PipeSection(MudSystem%isection)- MudSystem%Xend_PipeSection(MudSystem%isection)))+ MudSystem%Xend_PipeSection(MudSystem%isection)
exit
else
MudSystem%St_RemainedVolume_in_LastSection%Array(imud)= MudSystem%St_RemainedVolume_in_LastSection%Array(imud)- MudSystem%PipeSection_VolumeCapacity(MudSystem%isection)
MudSystem%isection= MudSystem%isection- 1
endif

enddo
endif
enddo
!========================STRING END=================

end subroutine Utube2_and_TripIn

+ 6
- 7
Equipments/MudSystem/Circulation_Code_Select.f90 Целия файл

@@ -1,14 +1,14 @@
subroutine CirculationCodeSelect ! is called in subroutine Fluid_Flow_Solver
Use KickVariables
use KickVARIABLESModule
Use MudSystemVARIABLES
USE TD_DrillStemComponents
Use CUnityInputs
Use CUnityOutputs
USE CKellyConnectionEnumVariables
USE UTUBEVARS
use UTUBEVARSModule
use sROP_Variables
USE PressureDisplayVARIABLES
use PressureDisplayVARIABLESModule

@@ -53,7 +53,7 @@ subroutine CirculationCodeSelect ! is called in subroutine Fluid_Flow_Solver
if (TD_Vol%RemoveVolume > 0.) call DisconnectingPipe !! .and. Get_JointConnectionPossible() == .false.) call DisconnectingPipe
IF (KickFlux .AND. NOT(KickOffBottom)) THEN
IF (KickVARIABLES%KickFlux .AND. NOT(KickVARIABLES%KickOffBottom)) THEN
call Kick_Influx
endif
@@ -61,13 +61,12 @@ subroutine CirculationCodeSelect ! is called in subroutine Fluid_Flow_Solver
IF ( MudSystem%NewInfluxNumber > 0 ) THEN
!write(*,*) 'KickOffBottom , ROP=' , KickOffBottom , ROP_Bit%RateOfPenetration
call Kick_Migration
endif
! ============================ must be after migration ==============================

DO KickNumber= MudSystem%NewInfluxNumber-NoGasPocket+1 , MudSystem%NewInfluxNumber
DO KickNumber= MudSystem%NewInfluxNumber-KickVARIABLES%NoGasPocket+1 , MudSystem%NewInfluxNumber
! FINDING NEW KICK LOCATIONS:
MudSystem%Ann_KickLoc= 0
MudSystem%Op_KickLoc= 0
@@ -96,7 +95,7 @@ subroutine CirculationCodeSelect ! is called in subroutine Fluid_Flow_Solver
! ============================ must be after migration-end ===========================
IF (ALLOCATED(GasPocketWeight%Array) .and. KickNumber == MudSystem%NewInfluxNumber .AND. NOT(KickOffBottom) .AND. MudSystem%WellHeadIsOpen) THEN
IF (ALLOCATED(GasPocketWeight%Array) .and. KickNumber == MudSystem%NewInfluxNumber .AND. NOT(KickVARIABLES%KickOffBottom) .AND. MudSystem%WellHeadIsOpen) THEN

cycle


+ 1
- 1
Equipments/MudSystem/Disconnecting_Pipe.f90 Целия файл

@@ -8,7 +8,7 @@ subroutine DisconnectingPipe ! is called in subroutine CirculationCodeSelect
! !use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
use KickVARIABLESModule
USE TD_DrillStemComponents
Use CKellyConnectionEnumVariables
Use CUnityOutputs


+ 2
- 2
Equipments/MudSystem/Elements_Creation.f90 Целия файл

@@ -13,7 +13,7 @@ subroutine ElementsCreation ! is called in subroutine Fluid_Flow_Solver
! !use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
use KickVARIABLESModule
use CError
implicit none
@@ -208,7 +208,7 @@ ALLOCATE (MudSystem%Xstart_OpSection(F_Counts%BottomHoleIntervalCounts),MudSyste
MudSystem%DeltaVolumePipe = INT(MudSystem%DeltaVolumePipe * 100000.d0) / 100000.d0
!DeltaVolumeAnnulusCapacity= ((Xend_PipeSection(F_Counts%StringIntervalCounts)-OldPosition))*Area_PipeSectionFt(NoPipeSections)* 7.48051948d0! ft^3 to gal
DrillStringSpeed = (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)-MudSystem%OldPosition) / 0.1
KickVARIABLES%DrillStringSpeed = (MudSystem%Xend_PipeSection(F_Counts%StringIntervalCounts)-MudSystem%OldPosition) / 0.1
MudSystem%DeltaVolumeAnnulusCapacity= sum(MudSystem%PipeSection_VolumeCapacity(F_Counts%StringIntervalCounts+1:MudSystem%NoPipeSections)) - MudSystem%OldAnnulusCapacity


+ 1
- 1
Equipments/MudSystem/FillingWell_By_BellNipple.f90 Целия файл

@@ -11,7 +11,7 @@ subroutine FillingWell_By_BellNipple ! is called in subroutine CirculationCo
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
use KickVARIABLESModule
implicit none


+ 2
- 2
Equipments/MudSystem/Kick_Expansion_and_Contraction.f90 Целия файл

@@ -9,7 +9,7 @@ subroutine Kick_Expansion ! is called in subroutine CirculationCodeSelect
USE sROP_Other_Variables
USE sROP_Variables
USE CReservoirVariables
USE KickVARIABLES
use KickVARIABLESModule

implicit none
@@ -132,7 +132,7 @@ subroutine Kick_Contraction ! is called in subroutine CirculationCodeSelect
USE sROP_Other_Variables
USE sROP_Variables
USE CReservoirVariables
USE KickVARIABLES
use KickVARIABLESModule
USE CError



+ 8
- 8
Equipments/MudSystem/Kick_Influx.f90 Целия файл

@@ -8,7 +8,7 @@ subroutine Kick_Influx ! is called in subroutine CirculationCodeSelect
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
use KickVARIABLESModule

implicit none
@@ -42,7 +42,7 @@ subroutine Kick_Influx ! is called in subroutine CirculationCodeSelect
endif

MudSystem%Op_MudDischarged_Volume%Array(1)= MudSystem%Op_MudDischarged_Volume%Array(1)+ ((GasKickPumpFlowRate/60.0d0)*MudSystem%DeltaT_Mudline) !(gal) due to KickFlux
MudSystem%Op_MudDischarged_Volume%Array(1)= MudSystem%Op_MudDischarged_Volume%Array(1)+ ((KickVARIABLES%GasKickPumpFlowRate/60.0d0)*MudSystem%DeltaT_Mudline) !(gal) due to KickFlux
!write(*,*) 'kick volume ok=' , Op_MudDischarged_Volume%Array(1)

@@ -61,13 +61,13 @@ subroutine Kick_Influx ! is called in subroutine CirculationCodeSelect
subroutine Instructor_CirculationMud_Edit ! is called in subroutine CirculationCodeSelect

Use KickVariables
use KickVARIABLESModule
Use MudSystemVARIABLES
USE TD_DrillStemComponents
Use CUnityInputs
Use CUnityOutputs
USE CKellyConnectionEnumVariables
USE UTUBEVARS
use UTUBEVARSModule
use sROP_Variables
use sROP_Other_Variables
use CDownHoleVariables
@@ -121,18 +121,18 @@ subroutine Instructor_CirculationMud_Edit ! is called in subroutine Circulat
subroutine ShoeLostSub ! is called in subroutine CirculationCodeSelect

Use KickVariables
use KickVARIABLESModule
Use MudSystemVARIABLES
USE TD_DrillStemComponents
Use CUnityInputs
Use CUnityOutputs
USE CKellyConnectionEnumVariables
USE UTUBEVARS
use UTUBEVARSModule
use sROP_Variables
use sROP_Other_Variables
use CDownHoleVariables
use CShoeVariables
USE PressureDisplayVARIABLES
use PressureDisplayVARIABLESModule
Use CWarningsVariables

@@ -141,7 +141,7 @@ subroutine ShoeLostSub ! is called in subroutine CirculationCodeSelect
MudSystem%ShoeLost= .false.
MudSystem%Kickexpansion_DueToMudLost= .false.
MudSystem%ShoeMudPressure= PressureGauges(5)
MudSystem%ShoeMudPressure= PressureDisplayVARIABLES%PressureGauges(5)
MudSystem%UGBOSuccessionCounter = MudSystem%UGBOSuccessionCounter + 1


+ 3
- 3
Equipments/MudSystem/Kick_Migration.f90 Целия файл

@@ -9,7 +9,7 @@ subroutine Kick_Migration ! is called in subroutine CirculationCodeSelect
USE sROP_Other_Variables
USE sROP_Variables
USE CReservoirVariables
USE KickVARIABLES
use KickVARIABLESModule

implicit none
@@ -39,9 +39,9 @@ subroutine Kick_Migration ! is called in subroutine CirculationCodeSelect
!FirstSetKickMigration
!write(*,*) 'NewInfluxNumber=' , NewInfluxNumber
DO KickNumber= MudSystem%NewInfluxNumber-NoGasPocket+1 , MudSystem%NewInfluxNumber
DO KickNumber= MudSystem%NewInfluxNumber-KickVARIABLES%NoGasPocket+1 , MudSystem%NewInfluxNumber
!write(*,*) 'KickNumber=' , KickNumber
if (KickFlux .AND. NOT(KickOffBottom) .and. KickNumber == MudSystem%NewInfluxNumber) cycle
if (KickVARIABLES%KickFlux .AND. NOT(KickVARIABLES%KickOffBottom) .and. KickNumber == MudSystem%NewInfluxNumber) cycle
if ( KickNumber == MudSystem%Ann_MudOrKick%Last() ) cycle ! when the last element in Annulus is kick, Migration is not called
!write(*,*) 'Migration will be done for,KickNumber=' ,KickNumber



+ 48
- 35
Equipments/MudSystem/MudSystem.f90 Целия файл

@@ -1,8 +1,8 @@
module MudSystemModule
USE MudSystemVARIABLES
USE PressureDisplayVARIABLES
USE FricPressDropVars
use PressureDisplayVARIABLESModule
USE FricPressDropVarsModule
USE Fluid_Flow_Startup_Vars
USE CMudPropertiesVariables
USE CManifolds
@@ -631,7 +631,7 @@ module MudSystemModule
use CHOKEVARIABLES
use CChokeManifoldVariables
use CTanksVariables
Use KickVariables
use KickVARIABLESModule
Use CHoistingVariables
! use CSimulationVariables
@@ -778,19 +778,19 @@ module MudSystemModule
!write(*,*) 'H83=' , H83
!write(*,*) 'DumpPump2=' , DumpPump2
!write(*,*) 'G83=' , G83
PumpPressure1= jj2*(1-H82)*(1-DumpPump1)*G82* PressureGauges(1)
PumpPressure2= jj12*(1-H83)*(1-DumpPump2)*G83* PressureGauges(1)
PumpPressure3= jj13*(1-H84)*(1-DumpCementPump)*G84* PressureGauges(1)
PumpPressure1= jj2*(1-H82)*(1-DumpPump1)*G82* PressureDisplayVARIABLES%PressureGauges(1)
PumpPressure2= jj12*(1-H83)*(1-DumpPump2)*G83* PressureDisplayVARIABLES%PressureGauges(1)
PumpPressure3= jj13*(1-H84)*(1-DumpCementPump)*G84* PressureDisplayVARIABLES%PressureGauges(1)
!
!write(*,*) 'jj2 , H82 , DumpPump1 , G82,PresCsureGauges(1)=' , jj2 , H82 , DumpPump1 , G82,PressureGauges(1)
!write(*,*) '1)PumpPressure1=' , PumpPressure1
!write(*,*) 'PumpPressure2=' , PumpPressure2
PumpToManifoldMudVol = 3.0 * 42.0
FricPressDropVars%PumpToManifoldMudVol = 3.0 * 42.0
!PumpToManifoldCompressedMudVol = PumpToManifoldCompressedMudVol + MP1_Q / ConvMinToSec * dt
!PumpToManifoldDeltaPDueToCompressibility = PumpToManifoldCompressedMudVol / (MudCompressibility * PumpToManifoldMudVol)
IF(Mp1_NoPath == 1 .and. ThereIsPathFrom_71_72_73_To_82 .and. MP1_Q > 0.0) then
PumpToManifoldCompressedMudVol = PumpToManifoldCompressedMudVol + MP1_Q / ConvMinToSec * dt
PumpPressure1= PumpToManifoldCompressedMudVol / (MudCompressibility * PumpToManifoldMudVol)
FricPressDropVars%PumpToManifoldCompressedMudVol = FricPressDropVars%PumpToManifoldCompressedMudVol + MP1_Q / ConvMinToSec * dt
PumpPressure1= FricPressDropVars%PumpToManifoldCompressedMudVol / (MudCompressibility * FricPressDropVars%PumpToManifoldMudVol)
write(*,*) '21)PumpPressure1=' , PumpPressure1
WRITE (*,*) ' valve 1 ', Manifold%Valve(1)%Status
WRITE (*,*) ' valve 4 ', Manifold%Valve(4)%Status
@@ -806,8 +806,8 @@ module MudSystemModule
ENDIF
IF(Mp2_NoPath == 1 .and. ThereIsPathFrom_71_72_73_To_83 .and. MP2_Q > 0.0 ) then
PumpToManifoldCompressedMudVol = PumpToManifoldCompressedMudVol + MP2_Q / ConvMinToSec * dt
PumpPressure2= PumpToManifoldCompressedMudVol / (MudCompressibility * PumpToManifoldMudVol)
FricPressDropVars%PumpToManifoldCompressedMudVol = FricPressDropVars%PumpToManifoldCompressedMudVol + MP2_Q / ConvMinToSec * dt
PumpPressure2= FricPressDropVars%PumpToManifoldCompressedMudVol / (MudCompressibility * FricPressDropVars%PumpToManifoldMudVol)
write(*,*) '22)PumpPressure1=' , PumpPressure2
WRITE (*,*) ' -valve 1 ', Manifold%Valve(1)%Status
WRITE (*,*) ' -valve 4 ', Manifold%Valve(4)%Status
@@ -823,8 +823,8 @@ module MudSystemModule
ENDIF

IF(Cp_NoPath == 1 .and. ThereIsPathFrom_71_72_73_To_84 .AND. MP3_Q > 0.0 ) then
PumpToManifoldCompressedMudVol = PumpToManifoldCompressedMudVol + MP3_Q / ConvMinToSec * dt
PumpPressure3= PumpToManifoldCompressedMudVol / (MudCompressibility * PumpToManifoldMudVol)
FricPressDropVars%PumpToManifoldCompressedMudVol = FricPressDropVars%PumpToManifoldCompressedMudVol + MP3_Q / ConvMinToSec * dt
PumpPressure3= FricPressDropVars%PumpToManifoldCompressedMudVol / (MudCompressibility * FricPressDropVars%PumpToManifoldMudVol)
ENDIF
!*****************************************************************************
!if(((Mp1_NoPath == 1 .and. ThereIsPathFrom_71_72_73_To_82) .or. ( PumpPressure1 >= MaxWorkingPressure1 ) &
@@ -843,7 +843,7 @@ module MudSystemModule
if(PumpsSpecification%MudPump1ReliefValveIsSet .and. MudSystem%Pump1BlownCount >= BlownThreshold) then
write(*,*) 'valve 65 open, BLOWN'
call ChangeValve(65, .TRUE.)
PumpToManifoldCompressedMudVol= 0.0
FricPressDropVars%PumpToManifoldCompressedMudVol= 0.0
MudSystem%Pump1BlownCount = 0
!Pump1BlownStarted = .FALSE.
!else
@@ -871,7 +871,7 @@ module MudSystemModule
if (PumpsSpecification%MudPump2ReliefValveIsSet .and. MudSystem%Pump2BlownCount >= BlownThreshold) then
write(*,*) 'valve 66 open, BLOWN'
call ChangeValve(66, .TRUE.)
PumpToManifoldCompressedMudVol= 0.0
FricPressDropVars%PumpToManifoldCompressedMudVol= 0.0
MudSystem%Pump2BlownCount = 0
!Pump2BlownInTimeStep = 0
!Pump2BlownStarted = .FALSE.
@@ -890,7 +890,7 @@ module MudSystemModule
if (PumpsSpecification%CementPumpReliefValveIsSet .and. MudSystem%Pump3BlownCount >= BlownThreshold) then
!write(*,*) 'valve 67 open, BLOWN'
call ChangeValve(67, .TRUE.)
PumpToManifoldCompressedMudVol= 0.0
FricPressDropVars%PumpToManifoldCompressedMudVol= 0.0
MudSystem%Pump3BlownCount = 0
!else
! PumpPressure3= 6000. !psi
@@ -904,7 +904,7 @@ module MudSystemModule
MudSystem%Pump1BlownCount = MudSystem%Pump1BlownCount + 1
if(MudSystem%Pump1BlownCount >= BlownThreshold) then
call ChangeValve(65, .TRUE.)
PumpToManifoldCompressedMudVol= 0.0
FricPressDropVars%PumpToManifoldCompressedMudVol= 0.0
call Activate_Pump1Failure()
MudSystem%Pump1OffFailure= .true.
MudSystem%Pump1BlownCount = 0
@@ -918,7 +918,7 @@ module MudSystemModule
MudSystem%Pump2BlownCount = MudSystem%Pump2BlownCount + 1
if(MudSystem%Pump2BlownCount >= BlownThreshold) then
call ChangeValve(66, .TRUE.)
PumpToManifoldCompressedMudVol= 0.0
FricPressDropVars%PumpToManifoldCompressedMudVol= 0.0
call Activate_Pump2Failure()
MudSystem%Pump2OffFailure= .true.
MudSystem%Pump2BlownCount = 0
@@ -932,7 +932,7 @@ module MudSystemModule
MudSystem%Pump3BlownCount = MudSystem%Pump3BlownCount + 1
if(MudSystem%Pump3BlownCount >= BlownThreshold) then
call ChangeValve(67, .TRUE.)
PumpToManifoldCompressedMudVol= 0.0
FricPressDropVars%PumpToManifoldCompressedMudVol= 0.0
call Activate_Pump3Failure()
MudSystem%Pump3OffFailure= .true.
MudSystem%Pump3BlownCount = 0
@@ -1571,7 +1571,7 @@ module MudSystemModule
if (K79 == 1) then
MudSystem%PressureGauge75= PressureGauges(1) !String to Gauge75
MudSystem%PressureGauge75= PressureDisplayVARIABLES%PressureGauges(1) !String to Gauge75
elseif (K82 == 1 .and. k83 == 0 .and. k84 == 0 .and. k78 == 0) then
MudSystem%PressureGauge75= PumpPressure1
@@ -1603,7 +1603,7 @@ module MudSystemModule
if (L79 == 1) then
MudSystem%PressureGauge76= PressureGauges(1) !String to Gauge76
MudSystem%PressureGauge76= PressureDisplayVARIABLES%PressureGauges(1) !String to Gauge76
elseif (L82 == 1 .and. L83 == 0 .and. L84 == 0 .and. L78 == 0) then
MudSystem%PressureGauge76= PumpPressure1
@@ -2221,16 +2221,29 @@ module MudSystemModule

if (StudentStation%PitGainLossZero) then
DrillingWatch%PitGainLose= 0.d0 !DrillWatch
MudSystem%RefrencePitVolume_DrillWatch= MudSystem%ActiveTankVolume/42. !(bbl) !DrillWatch
!*********************************************
DataDisplayConsole%PitGainLossGauge= 0. !MFF Indicator
MudSystem%RefrencePitVolume= MudSystem%ActiveTankVolume/42. !(bbl) !MFF Indicator

endif
!!======================================================================
!! MUD FLOW-FILL INDICATOR
!!======================================================================
IF (DataDisplayConsole%MFFIPowerSwitch==1 ) THEN !.and. IsPortable==.false.
!!======================================================================
IF (DataDisplayConsole%MFFIPowerSwitch==1 ) THEN !.and. IsPortable==.false.

!====================TotalStrokes Reset and Calculate======================
if (DataDisplayConsole%MFFIResetTotalStrokes == 1) then
IF (DataDisplayConsole%MFFIPumpSelectorSwitch == 1) THEN
@@ -2507,22 +2520,22 @@ module MudSystemModule
MudSystem%ReserveTankDensity= MudProperties%ReserveDensity ! update from student input
end subroutine
subroutine SetupMudSystem()
use CPathChangeEvents
use CMudPropertiesVariables
implicit none
! subroutine SetupMudSystem()
! use CPathChangeEvents
! use CMudPropertiesVariables
! implicit none
call BeforeTraverse%Add(InitialVarsBeforePathsChanges)
call AfterTraverse%Add(AfterPathsChanges)
call OnPathOpen%Add(WhenPathOpen)
! call BeforeTraverse%Add(InitialVarsBeforePathsChanges)
! call AfterTraverse%Add(AfterPathsChanges)
! call OnPathOpen%Add(WhenPathOpen)
call OnActiveMudVolumeChange%Add(ActiveMudVolumeChanged)
call OnActiveDensityChange%Add(ActiveDensityChanged)
call OnReserveMudVolumeChange%Add(ReserveMudVolumeChanged)
call OnReserveDensityChange%Add(ReserveDensityChanged)
! call OnActiveMudVolumeChange%Add(ActiveMudVolumeChanged)
! call OnActiveDensityChange%Add(ActiveDensityChanged)
! call OnReserveMudVolumeChange%Add(ReserveMudVolumeChanged)
! call OnReserveDensityChange%Add(ReserveDensityChanged)
end subroutine
! end subroutine
subroutine AfterPathsChanges()
implicit none


+ 4
- 4
Equipments/MudSystem/MudSystemStartup.f90 Целия файл

@@ -4,7 +4,7 @@
use CTanksVariables
USE CMudPropertiesVariables
Use GeoElements_FluidModule
Use KickVariables
use KickVARIABLESModule
Use CUnityOutputs
Use CShoeVariables
USE Pumps_VARIABLES
@@ -82,7 +82,7 @@ MudSystem%FluidFlowCounter = 0
!KickVolumeinAnnulus= 0.0
MudSystem%KickDeltaVinAnnulus= 0.0
GasKickPumpFlowRate= 0.0
KickVARIABLES%GasKickPumpFlowRate= 0.0
MudSystem%FirstMudSet= 0
MudSystem%FirstSetUtube1=0
@@ -122,7 +122,7 @@ MudSystem%FluidFlowCounter = 0
USE CBopStackVariables
USE CPumpsVariables
use CTanksVariables
USE KickVariables
use KickVARIABLESModule
implicit none
@@ -141,7 +141,7 @@ MudSystem%FluidFlowCounter = 0
MudSystem%DeltaT_Mudline=0.1 !second
GasKickPumpFlowRate= 0.
KickVARIABLES%GasKickPumpFlowRate= 0.
MudSystem%BellNippleVolume= 0.
MudSystem%BellNippleDensity= 0.
MudSystem%MudBucketVolume= 0.


+ 5
- 5
Equipments/MudSystem/Plot_Final_Mud_Elements.f90 Целия файл

@@ -14,9 +14,9 @@ subroutine PlotFinalMudElements ! is called in subroutine CirculationCodeSel
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
use KickVARIABLESModule
USE CKellyConnectionEnumVariables
USE UTUBEVARS
use UTUBEVARSModule
use CLog1
Use CError
Use , intrinsic :: IEEE_Arithmetic
@@ -269,13 +269,13 @@ endif
!============================ UTUBE =============================
!IF (UtubePossibility== .true. .and. Get_KellyConnection() /= KELLY_CONNECTION_STRING .and. WellHeadIsOpen) THEN
IF (MudSystem%UtubePossibility== .true. .and. TD_StConn%FluidStringConnectionMode==0 .and. MudSystem%WellHeadIsOpen .AND. NoGasPocket == 0) THEN
IF (MudSystem%UtubePossibility== .true. .and. TD_StConn%FluidStringConnectionMode==0 .and. MudSystem%WellHeadIsOpen .AND. KickVARIABLES%NoGasPocket == 0) THEN
CALL WellPressureDataTransfer
!WRITE (*,*) ' U-Tube Done 1'
CALL Utube
!WRITE (*,*) ' U-Tube Done 2'
if (QUtubeInput> 0.0) call Utube1_and_TripIn
if (QUtubeOutput> 0.0) call Utube2_and_TripIn
if (UTUBEVARS%QUtubeInput> 0.0) call Utube1_and_TripIn
if (UTUBEVARS%QUtubeOutput> 0.0) call Utube2_and_TripIn
END IF
!========================== UTUBE- end =========================


+ 6
- 6
Equipments/MudSystem/Pump_and_Trip_In.f90 Целия файл

@@ -13,7 +13,7 @@ subroutine Pump_and_TripIn ! is called in subroutine CirculationCodeSelect
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
use KickVARIABLESModule
Use CShoeVariables
use CError

@@ -410,7 +410,7 @@ imud=0
if ( MudSystem%MudVolume_InjectedToBH > 0.0 ) then
if (KickOffBottom) then ! (kickOffBottom = F) means kick is next to the bottom hole and usually kick is entering the
if (KickVARIABLES%KickOffBottom) then ! (kickOffBottom = F) means kick is next to the bottom hole and usually kick is entering the
AddLocation= MudSystem%Op_Density%Length()-MudSystem%iLoc+1+1 ! well, thus pumped mud should be placed above the kick
else
AddLocation= MudSystem%Op_Density%Length()+1
@@ -1183,8 +1183,8 @@ imud=0
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
USE PressureDisplayVARIABLES
use KickVARIABLESModule
use PressureDisplayVARIABLESModule
Use CError
Use , intrinsic :: IEEE_Arithmetic
@@ -1597,8 +1597,8 @@ use CSounds
!use CTanksVariables, TripTankVolume2 => TripTankVolume, TripTankDensity2 => TripTankDensity
!USE sROP_Other_Variables
!USE sROP_Variables
!Use KickVariables
!USE PressureDisplayVARIABLES
!use KickVARIABLESModule
!use PressureDisplayVARIABLESModule
!Use CError
!Use , intrinsic :: IEEE_Arithmetic



+ 2
- 2
Equipments/MudSystem/Trip_Out_andPump.f90 Целия файл

@@ -13,7 +13,7 @@ subroutine TripOut_and_Pump ! is called in subroutine CirculationCodeSelect
!use CTanksVariables, TripTankVolume2 => DrillingWatch%TripTankVolume, TripTankDensity2 => TripTankDensity
USE sROP_Other_Variables
USE sROP_Variables
Use KickVariables
use KickVARIABLESModule
Use CShoeVariables
use CError
@@ -427,7 +427,7 @@ imud=0
if ( MudSystem%MudVolume_InjectedToBH > 0.0 ) then
if (KickOffBottom) then ! (kickOffBottom = F) means kick is next to the bottom hole and usually kick is entering the
if (KickVARIABLES%KickOffBottom) then ! (kickOffBottom = F) means kick is next to the bottom hole and usually kick is entering the
AddLocation= MudSystem%Op_Density%Length()-MudSystem%iLoc+1+1 ! well, thus pumped mud should be placed above the kick
else
AddLocation= MudSystem%Op_Density%Length()+1


+ 4
- 4
Equipments/MudSystem/Utube1_and_Trip_In.f90 Целия файл

@@ -1,6 +1,6 @@
SUBROUTINE Utube1_and_TripIn ! is called in subroutine CirculationCodeSelect string to annulus
Use UTUBEVARS
use UTUBEVARSModule
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
@@ -19,8 +19,8 @@ SUBROUTINE Utube1_and_TripIn ! is called in subroutine CirculationCodeSelect
MudSystem%UtubeMode1Activated= .true.
!write(*,*) 'QUTubeInput=' , QUTubeInput
!Qinput=5000.
MudSystem%StringFlowRate= QUTubeInput ! (gpm)
MudSystem%AnnulusFlowRate= QUTubeInput
MudSystem%StringFlowRate= UTUBEVARS%QUTubeInput ! (gpm)
MudSystem%AnnulusFlowRate= UTUBEVARS%QUTubeInput
MudSystem%StringFlowRateFinal= MudSystem%StringFlowRate
MudSystem%AnnulusFlowRateFinal= MudSystem%AnnulusFlowRate
!===========================================
@@ -258,7 +258,7 @@ imud=0

!============================= Bottom Hole ==============================
!Op_MudDischarged_Volume%Array(1)= Op_MudDischarged_Volume%Array(1)+ ((GasKickPumpFlowRate/60.)*DeltaT_Mudline) !(gal) due to KickFlux
!Op_MudDischarged_Volume%Array(1)= Op_MudDischarged_Volume%Array(1)+ ((KickVARIABLES%GasKickPumpFlowRate/60.)*DeltaT_Mudline) !(gal) due to KickFlux
imud=0
do while (imud < MudSystem%Op_Mud_Forehead_X%Length())
imud = imud + 1


+ 5
- 5
Equipments/MudSystem/Utube2_and_Trip_In.f90 Целия файл

@@ -1,6 +1,6 @@
SUBROUTINE Utube2_and_TripIn ! is called in subroutine CirculationCodeSelect annulus to string
Use UTUBEVARS
use UTUBEVARSModule
Use GeoElements_FluidModule
USE CMudPropertiesVariables
USE MudSystemVARIABLES
@@ -17,10 +17,10 @@ SUBROUTINE Utube2_and_TripIn ! is called in subroutine CirculationCodeSelect
!===========================================================WELL============================================================
MudSystem%UtubeMode2Activated= .true.
write(*,*) 'QUtubeOutput=' , QUtubeOutput
write(*,*) 'QUtubeOutput=' , UTUBEVARS%QUtubeOutput
!QUTubeInput=5000.
MudSystem%StringFlowRate= QUtubeOutput ! (gpm)
MudSystem%AnnulusFlowRate= QUtubeOutput
MudSystem%StringFlowRate= UTUBEVARS%QUtubeOutput ! (gpm)
MudSystem%AnnulusFlowRate= UTUBEVARS%QUtubeOutput
MudSystem%StringFlowRateFinal= MudSystem%StringFlowRate
MudSystem%AnnulusFlowRateFinal= MudSystem%AnnulusFlowRate
!===========================================
@@ -270,7 +270,7 @@ imud= MudSystem%Ann_Mud_Forehead_X%Length() + 1

!============================= Bottom Hole ==============================
!Op_MudDischarged_Volume%Array(1)= Op_MudDischarged_Volume%Array(1)+ ((GasKickPumpFlowRate/60.)*DeltaT_Mudline) !(gal) due to KickFlux
!Op_MudDischarged_Volume%Array(1)= Op_MudDischarged_Volume%Array(1)+ ((KickVARIABLES%GasKickPumpFlowRate/60.)*DeltaT_Mudline) !(gal) due to KickFlux
imud=0
do while (imud < MudSystem%Op_Mud_Forehead_X%Length())
imud = imud + 1


+ 45
- 0
FluidFlow-old/Annulus_Property_Calculator.f90 Целия файл

@@ -0,0 +1,45 @@
SUBROUTINE AnnulusPropertyCalculator (md, den, pre, tem)
!!! This subroutine gets location of a guage or an observation point and determines information of that point such as pressure, density, velocity and temperature later.
use PressureDisplayVARIABLESModule
USE Fluid_Flow_Startup_Vars
USE MudSystemVARIABLES
USE FricPressDropVarsModule
USE CDrillWatchVariables
IMPLICIT NONE
INTEGER, intent(in) :: md ! input
REAL(8) :: TVD
real(8), intent(inout) :: den ! output
real(8), intent(inout) :: pre ! output
real(8), intent(inout) :: tem ! output
INTEGER :: ilocal
CALL TVD_Calculator(md * 1.d0 , TVD)
IF (md <= INT(FinalFlowEl(AnnulusFirstEl)%StartX)) THEN !! mouse pointer is in the annulus space
DO ilocal = AnnulusFirstEl , AnnulusLastEl
IF (INT(FinalFlowEl(ilocal)%EndX) <= md) EXIT
END DO

ELSE IF (md > INT(FinalFlowEl(NumbEl)%EndX)) THEN ! mouse pointer is in the open hole space
DO ilocal = OpenholeFirstEl , NumbEl
IF (INT(FinalFlowEl(ilocal)%EndX) <= md) EXIT
END DO

ELSE
WRITE (*,*) ' Error in calculating annulus observation point '
END IF
pre = FinalFlowEl(ilocal)%StartPress - (FinalFlowEl(ilocal)%StartX - md) * FinalFlowEl(ilocal)%dPdLfric &
- (FinalFlowEl(ilocal)%StartTVD - TVD) * FinalFlowEl(ilocal)%dPdLGrav
!write(*,*) ' md, ilocal', md, ilocal
!WRITE (*,*) ' FlowEl dPdLfric , dPdLGrav', FlowEl(ilocal)%dPdLfric , FlowEl(ilocal)%dPdLGrav
den = FinalFlowEl(ilocal)%Density
!tem = 500
END SUBROUTINE

+ 337
- 0
FluidFlow-old/Annulus_and_Openhole_Pressure_Distribution.f90 Целия файл

@@ -0,0 +1,337 @@
SUBROUTINE PressureAnnAndOHDistribution
!! Record of revisions
!! Date Programmer Discription of change
!! ------ ------------ -----------------------
!! 1396/07/30 Sheikh Original code
!!
USE FricPressDropVarsModule
USE MudSystemVARIABLES
use PressureDisplayVARIABLESModule
USE GeoElements_FluidModule
USE Fluid_Flow_Startup_Vars
use KickVARIABLESModule
USE CMudPropertiesVariables
USE TD_WellGeometry
USE CReservoirVariables
use MudSystemModule
USE CHOKEVARIABLES
USE CChokeManifoldVariables
USE VARIABLES
USE CError
USE , INTRINSIC :: IEEE_ARITHMETIC

IMPLICIT NONE
INTEGER :: i , j , k , l
INTEGER :: ifric
REAL :: Fraction
KBOP = 0.0

IF (WellHeadOpen .OR. NoGasPocket == 0) THEN !! (mud circulation is normal wellhead may be open or closed) OR (kick is in the well and well head is open)
!!!!! Determining flow rate in each section
i = AnnulusFirstEl
j = OpenholeFirstEl - 1
!!!!!!!!!!!!!!!!!!!!!!!!! flowrates due to external sources like pump and tripping
!WRITE (*,*) 'MudSystem%StringFlowRate', MudSystem%StringFlowRate
FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%FlowRate = (ClingingFactor * FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%Area + FlowEl(StringFirstEl)%Area) * DrillStringSpeed * ConvMintoSec * Convft3toUSgal ! flowrate in annulus due to tripping
FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%FlowRate = FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%FlowRate + REAL(MudSystem%MudVolume_InjectedToBH) * ConvMintoSec / dt ! flowrate in annulus due to pump
!WRITE (*,*) 'Drillstring speed (ft/s)' , FlowEl(j)%FlowRate
!IF (NoWellToChokeEl > 0) THEN ! flowrate in choke line
! FlowEl(NoHorizontalEl + NoStringEl + NoAnnulusEl + 1 : NoHorizontalEl + NoStringEl + NoAnnulusEl + NoWellToChokeEl)%FlowRate = MudSystem%AnnulusFlowRate + (DeltaVolumePipe * ConvMinToSec / dt)
!END IF
IF (MudSystem%ShoeFractured) THEN ! reduction of flowrate due to formation fracture and lost circulation
!WRITE (*,*) ' SHoe fractured', PressureGauges(5), FlowEl(ShoeFlowElNo)%FlowRate
IF (ShoeFlowElNo > AnnulusLastEl) THEN ! shoe is in openhole
FlowEl(ShoeFlowElNo : NumbEl)%FlowRate = - MudSystem%Qlost
FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%FlowRate = FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%FlowRate - MudSystem%Qlost
ELSE ! shoe is in annulus
FlowEl(ShoeFlowElNo : OpenholeFirstEl - 1)%FlowRate = FlowEl(ShoeFlowElNo : OpenholeFirstEl - 1)%FlowRate - MudSystem%Qlost
END IF
END IF
!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!! initial guess flowrates for opening BOP or choke line
IF (WellHeadWasOpen == .FALSE. .AND. NoGasPocket > 0 .AND. KickIteration == 1) THEN
IF (ChokeKroneckerDelta == 1) THEN ! flow on choke line
IF (TotalOpenChokeArea < 0.01 * Choke%ChokeAreaFullyOpen) THEN
WRITE (*,*) 'density , TotalOpenChokeArea' , DownHole%Density, TotalOpenChokeArea
TotalOpenChokeArea = 0.01 * Choke%ChokeAreaFullyOpen
END IF
Kchoke = (ChokeDensity / ((2.0 * 89158.0) * (0.26 * 0.61 * TotalOpenChokeArea)**2)) * 4.0 ! *4.d0: seyyed gofte
GasPocketFlowInduced%Array(:) = MIN((0.6 / NoGasPocket * SQRT(PressureGauges(2) / Kchoke)) , (0.05 * GasPocketNewVol%Array(:) * ConvFt3toUSgal / 60 / dt))
WRITE (*,*) ' PressureGauges(2) , Kchoke' , PressureGauges(2) , Kchoke
WRITE (*,*) 'Initial guess after opening choke =', GasPocketFlowInduced%Array(1)
WRITE (*,*) ' valve 49 ', Manifold%Valve(49)%Status
WRITE (*,*) ' valve 47 ', Manifold%Valve(47)%Status
WRITE (*,*) ' valve 26 ', Manifold%Valve(26)%Status
WRITE (*,*) ' valve 30 ', Manifold%Valve(30)%Status
WRITE (*,*) ' valve 34 ', Manifold%Valve(34)%Status
WRITE (*,*) ' valve 63 ', Manifold%Valve(63)%Status
WRITE (*,*) ' valve 28 ', Manifold%Valve(28)%Status
WRITE (*,*) ' valve 33 ', Manifold%Valve(33)%Status
WRITE (*,*) ' valve 62 ', Manifold%Valve(62)%Status
WRITE (*,*) ' valve 36 ', Manifold%Valve(36)%Status
WRITE (*,*) ' valve 38 ', Manifold%Valve(38)%Status
ELSE ! flow through bell nipple
k = NoHorizontalEl + NoStringEl + NoAnnulusEl
KBOP = FlowEl(AnnulusLastEl)%Density / ((2.0 * 89158.0) * (0.26 * 0.61 * ShearRam%MinimumOpenArea_InBOP)**2)
GasPocketFlowInduced%Array(:) = MIN((0.1 / NoGasPocket * SQRT(PressureGauges(6) / KBOP)) , (0.05 * GasPocketNewVol%Array(:) * ConvFt3toUSgal / 60 / dt))
WRITE (*,*) 'PressureGauges(6), KBOP', PressureGauges(6), KBOP
WRITE (*,*) 'Initial guess after opening BOP =', GasPocketFlowInduced%Array(1)
END IF
END IF
!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!! flowrates due to expansion of gas pockets or kick influx
!i = AnnulusFirstEl
!j = OpenholeFirstEl - 1
IF (NoGasPocket > 0) THEN
DO l = 1 , NoGasPocket !GasPocketFlowEl
k = GasPocketFlowEl(l , 1)
!WRITE (*,*) 'GasPocketFlowEl(l , 1)', l, k, j
IF (k == 0) CALL ERRORSTOP('GasPocketFlowEl(l , 1) == 0', l)
IF (k >= OpenholeFirstEl) THEN ! gas pocket is in open hole only
FlowEl(k : NumbEl)%FlowRate = FlowEl(k : NumbEl)%FlowRate + GasPocketFlowInduced%Array(l) ! openhole elements above pocket
FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%FlowRate = FlowEl(AnnulusFirstEl : OpenholeFirstEl - 1)%FlowRate + GasPocketFlowInduced%Array(l) ! annulus and choke line elements
ELSE IF (k < OpenholeFirstEl) THEN ! gas pocket is in annulus ond/or choke line only
FlowEl(k : OpenholeFirstEl - 1)%FlowRate = FlowEl(k : OpenholeFirstEl - 1)%FlowRate + GasPocketFlowInduced%Array(l) ! annulus or choke line elements above pocket
END IF
END DO
END IF
!IF (ChokeKroneckerDelta == 1 .AND. ABS(FlowEl(i + NoAnnulusEl)%FlowRate / 600.0 - Ann_Saved_MudDischarged_Volume_Final) > 0.05) THEN
! WRITE (*,*) 'Difference between flowrates', FlowEl(i + NoAnnulusEl + 1)%FlowRate / 600.0, Ann_Saved_MudDischarged_Volume_Final
!END IF
!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!! END - Determining flow rate in each section
!!!!!!!!!!!!!!!!!!!!!!!!! effect of surge and swab on frictional pressure drop direction
DO l = AnnulusFirstEl , OpenholeFirstEl - 1
IF (FlowEl(l)%FlowRate < 0.0) THEN
FlowEl(l)%FrictionDirection = -1
IF (FlowEl(l)%FlowRate > -1.0 * PressFlowrateTolerance .AND. ALLOCATED(GasPocketWeight%Array)) FlowEl(l)%FlowRate = - PressFlowrateTolerance
ELSE
FlowEl(l)%FrictionDirection = 1
IF (FlowEl(l)%FlowRate < PressFlowrateTolerance .AND. ALLOCATED(GasPocketWeight%Array)) FlowEl(l)%FlowRate = PressFlowrateTolerance
END IF
END DO
!!!!!!!!!!!!!!!!!!!!!!!!!

!!!!!!!!!!!!!!!!!!!!!!!!! Calculating Back Pressure, in well to pit path back pressure = 0
! in well to choke manifold path back pressure is equal to pressure before choke not casing pressure
IF (ChokeKroneckerDelta == 1) THEN

IF (FlowEl(OpenholeFirstEl - 1)%FlowRate < 0.0) THEN
WRITE (*,*) ' Negative choke flowrate'
FlowEl(OpenholeFirstEl - 1)%FlowRate = MAX((REAL(MudSystem%MudVolume_InjectedToBH) * ConvMintoSec / dt) , 10.0)
END IF
!Kchoke = ChokeDensity / ((2. * 89158.0) * (0.26 * 0.61 * TotalOpenChokeArea)**2)
MudSystem%deltaPchoke = (Kchoke * FlowEl(OpenholeFirstEl - 1)%FlowRate * ABS(FlowEl(OpenholeFirstEl - 1)%FlowRate)) * 1.d0
!WRITE (*,*) '**deltaPchoke , Kchoke, choke flowrate' , deltaPchoke , Kchoke, FlowEl(i)%FlowRate
!WRITE (*,*) '**TotalOpenChokeArea , Total Open Choke Area Percent' , TotalOpenChokeArea , TotalOpenChokeArea / 4.0 * ChokeAreaFullyOpen
IF (MudSystem%deltaPchoke < 0.d0) MudSystem%deltaPchoke = 0.d0
BackPressure = REAL(MudSystem%deltaPchoke)
!WRITE (*,*) ' Choke inlet FlowRate, Density, pressure' , FlowEl(j)%FlowRate, FlowEl(j)%Density, FlowEl(j)%StartPress
!WRITE (*,*) ' Choke outlet Density' , FlowEl(i)%Density
!WRITE (*,*) ' deltaPchoke , choke flowrate' , deltaPchoke , FlowEl(i)%FlowRate
!WRITE (*,*) 'Total Open Choke Area Percent' , TotalOpenChokeArea / 4.0 * ChokeAreaFullyOpen
ELSE
BackPressure = 0.0
END IF
IF (IEEE_IS_NaN(BackPressure)) CALL ErrorStop('NaN in calculating back pressure' , FlowEl(j)%FlowRate)
!write(*,*) 'BackPressure=' , BackPressure
!!!!!!!!!!!!!!!!!!!!!!!!! when flow passes through choke manifold, solution process may be unstable
IF (ChokeKroneckerDelta == 1) THEN ! thus we should stabilize solution
IF (TotalOpenChokeArea > 0.5 * Choke%ChokeAreaFullyOpen) THEN
KickCorrectionUnderRelaxation = 0.6
ELSE IF (TotalOpenChokeArea > 0.1 * Choke%ChokeAreaFullyOpen) THEN
KickCorrectionUnderRelaxation = 0.5
ELSE ! TotalOpenChokeArea < 0.1 * ChokeAreaFullyOpen
KickCorrectionUnderRelaxation = 0.4
END IF
ELSE
KickCorrectionUnderRelaxation = 0.6
END IF
!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!! calculating frictional pressure drop in annulus, chooke line and open hole elements
DO ifric = AnnulusFirstEl , NumbEl
CALL FricPressDrop(ifric)
!WRITE (*,*) ' element No, FlowRate , Density, FricPressLoss', ifric, FlowEl(ifric)%FlowRate, FlowEl(ifric)%Density, FlowEl(ifric)%FricPressLoss
IF (IEEE_IS_NaN(FlowEl(ifric)%FricPressLoss)) THEN
WRITE (*,*) 'H, S, A, Ch, O', NoHorizontalEl , NoStringEl , NoAnnulusEl , NoWellToChokeEl , NoOpenHoleEl
WRITE (*,*) 'Ann/Op start, end, density, Q, mu, Type' , FlowEl(ifric)%StartX, FlowEl(ifric)%EndX, FlowEl(ifric)%Density, FlowEl(ifric)%FlowRate, FlowEl(ifric)%mueff, FlowEl(ifric)%MaterialType
CALL ErrorStop('NaN in calculating pressure drop' , ifric)
END IF
END DO
!IF (ChokeKroneckerDelta == 1) THEN
!WRITE (*,*) ' velocity and flowrate', FlowEl(i)%vel, FlowEl(i)%flowrate
!WRITE (*,*) ' Theta600, Theta300', FlowEl(i)%Theta600 , FlowEl(i)%Theta300
!WRITE (*,*) ' kIndex , nIndex', FlowEl(i)%kIndex, FlowEl(i)%nIndex
!WRITE (*,*) ' last el. mueff, gen. Rey.', i, FlowEl(i)%mueff, FlowEl(i)%GenRe
!END IF
!!!!!!!!!!!!!!!!!!!!!!!!! Pressure distribution in annulus
j = OpenholeFirstEl - 1
FlowEl(OpenholeFirstEl - 1)%EndPress = BackPressure
FlowEl(OpenholeFirstEl - 1)%StartPress = FlowEl(OpenholeFirstEl - 1)%EndPress + FlowEl(OpenholeFirstEl - 1)%FricPressLoss + FlowEl(OpenholeFirstEl - 1)%StaticPressDiff
!write(*,*) 'FlowEl(j)%StartPress=' ,j, FlowEl(j)%StartPress
!write(*,*) 'FlowEl(j)%Length=' ,j, FlowEl(j)%Length, FlowEl(j)%EndX
!write(*,*) 'FlowEl(i)%dPdLFric=' ,i, FlowEl(i)%dPdLFric
DO l = OpenholeFirstEl - 2 , AnnulusFirstEl , -1
!WRITE (*,*) '123'
FlowEl(l)%EndPress = FlowEl(l + 1)%StartPress
FlowEl(l)%StartPress = FlowEl(l)%EndPress + FlowEl(l)%FricPressLoss + FlowEl(l)%StaticPressDiff
!WRITE(*,*) "ANNULUS: bottom , top Pressure", l , FlowEl(l)%StartPress , FlowEl(l)%EndPress , FlowEl(l)%fricPressLoss
!WRITE(*,*) "ANNULUS: Start , End X", FlowEl(l)%StartX , FlowEl(l)%EndX

!write(*,*) 'FlowEl(i)%StartPress=' ,i, FlowEl(i)%StartPress
!WRITE (*,*) ' FlowEl(i)%GenRe, FlowEl(i)%ReCritLam ' , FlowEl(i)%GenRe , FlowEl(i)%ReCritLam
END DO


!!!!!!!!!!!!!!!!! Pressure distribution in Open Hole
FlowEl(NumbEl)%EndPress = FlowEl(AnnulusFirstEl)%StartPress
FlowEl(NumbEl)%StartPress = FlowEl(NumbEl)%EndPress + FlowEl(NumbEl)%FricPressLoss + FlowEl(NumbEl)%StaticPressDiff
!WRITE (*,*) 'op top and op down' , FlowEl(NumbEl)%EndPress, FlowEl(j + 1)%StartPress
!write(*,*) 'FlowEl(NumbEl)%dPdLFric=' , FlowEl(NumbEl)%dPdLFric
!write(*,*) 'FlowEl(NumbEl)%dPdLGrav=' , FlowEl(NumbEl)%dPdLGrav
DO l = NumbEl - 1 , OpenholeFirstEl , -1
!WRITE(*,*) ' ope'
FlowEl(l)%EndPress = FlowEl(l + 1)%StartPress
!IF (FlowEl(i)%FlowRate < 0.0d0) THEN
! FlowEl(i)%StartPress = FlowEl(i)%EndPress - FlowEl(i)%FricPressLoss + FlowEl(i)%StaticPressDiff
!ELSE
FlowEl(l)%StartPress = FlowEl(l)%EndPress + FlowEl(l)%FricPressLoss + FlowEl(l)%StaticPressDiff
!WRITE (*,*) ' Length, static, frictional open' , FlowEl(i)%Length, FlowEl(i)%StaticPressDiff, FlowEl(i)%FricPressLoss
!END IF
END DO

ELSE ! wellhead is closed and kick is in the well
!WRITE (*,*) ' well head is closed'
k = GasPocketFlowEl(NoGasPocket , 1)
!WRITE (*,*) 'k, Pocket Press', k, GasPocketOldPress%Array(NoGasPocket) - StandardPress
i = AnnulusFirstEl
j = OpenholeFirstEl - 1
FlowEl(k)%StartPress = GasPocketOldPress%Array(NoGasPocket) - StandardPress
FlowEl(k)%EndPress = GasPocketOldPress%Array(NoGasPocket) - StandardPress
IF (k > OpenholeFirstEl - 1) THEN ! Top pocket StartX is in Open hole
!WRITE (*,*) 'here 1'
DO l = k - 1 , OpenholeFirstEl , -1 ! below elements in openhole
!WRITE (*,*) 'here 1-1'
FlowEl(l)%EndPress = FlowEl(l + 1)%StartPress
FlowEl(l)%StartPress = FlowEl(l)%EndPress + FlowEl(l)%StaticPressDiff
END DO
DO l = k + 1 , NumbEl ! Above elements in openhole
!WRITE (*,*) 'here 1-2'
FlowEl(l)%StartPress = FlowEl(l - 1)%EndPress
FlowEl(l)%EndPress = FlowEl(l)%StartPress - FlowEl(l)%StaticPressDiff
END DO
FlowEl(AnnulusFirstEl)%StartPress = FlowEl(NumbEl)%EndPress
FlowEl(AnnulusFirstEl)%EndPress = FlowEl(AnnulusFirstEl)%StartPress - FlowEl(AnnulusFirstEl)%StaticPressDiff
DO l = AnnulusFirstEl + 1 , OpenholeFirstEl - 1
FlowEl(l)%StartPress = FlowEl(l - 1)%EndPress
FlowEl(l)%EndPress = FlowEl(l)%StartPress - FlowEl(l)%StaticPressDiff
END DO
ELSE ! Top pocket StartX is in annulus or choke line
DO l = k - 1 , AnnulusFirstEl , -1 ! below elements in annnulus
FlowEl(l)%EndPress = FlowEl(l + 1)%StartPress
FlowEl(l)%StartPress = FlowEl(l)%EndPress + FlowEl(l)%StaticPressDiff
END DO
DO l = k + 1 , OpenholeFirstEl - 1 ! Above elements in annulus
FlowEl(l)%StartPress = FlowEl(l - 1)%EndPress
FlowEl(l)%EndPress = FlowEl(l)%StartPress - FlowEl(l)%StaticPressDiff
END DO
FlowEl(NumbEl)%EndPress = FlowEl(AnnulusFirstEl)%StartPress
FlowEl(NumbEl)%StartPress = FlowEl(NumbEl)%EndPress + FlowEl(NumbEl)%StaticPressDiff
DO l = NumbEl - 1 , OpenholeFirstEl , -1
FlowEl(l)%EndPress = FlowEl(l + 1)%StartPress
FlowEl(l)%StartPress = FlowEl(l)%EndPress + FlowEl(l)%StaticPressDiff
END DO
END IF
!
! !WRITE (*,*) ' first annulus bottom pressure ' , FlowEl(NoHorizontalEl + NoStringEl + 1)%StartPress
! !WRITE (*,*) ' last OpenHole bottom pressure' , FlowEl(NumbEl)%StartPress
! !WRITE (*,*) ' Gas Pocket pressure' , GasPocket%NewPress
END IF

!!!!!!!!!!!!!!!!!!!!!! checking pressure for preventing NaN in pressures
DO l = OpenholeFirstEl - 1 , AnnulusFirstEl , -1 ! annulus or choke elements
!WRITE (*,*) 'start, end' , FlowEl(i)%StartX, FlowEl(i)%EndX
IF (IEEE_IS_NaN(FlowEl(l)%EndPress)) THEN
WRITE (*,*) 'H, S, A, Ch, O', NoHorizontalEl , NoStringEl , NoAnnulusEl , NoWellToChokeEl , NoOpenHoleEl
WRITE (*,*) 'Ann/Ch start, end, density, Q, mu' , FlowEl(l)%StartX, FlowEl(l)%EndX, FlowEl(l)%Density, FlowEl(l)%FlowRate, FlowEl(l)%mueff, FlowEl(l)%MaterialType
CALL ERRORSTOP('NaN in EndPress', l)
END IF
END DO

DO l = NumbEl , OpenholeFirstEl - 1 , -1 ! op elements
!WRITE (*,*) 'start, end' , FlowEl(i)%StartX, FlowEl(i)%EndX
IF (IEEE_IS_NaN(FlowEl(l)%EndPress)) THEN
WRITE (*,*) 'H, S, A, Ch, O', NoHorizontalEl , NoStringEl , NoAnnulusEl , NoWellToChokeEl , NoOpenHoleEl
WRITE (*,*) 'Op start, end, density, Q, mu' , FlowEl(l)%StartX, FlowEl(l)%EndX, FlowEl(l)%Density, FlowEl(l)%FlowRate, FlowEl(l)%mueff, FlowEl(l)%MaterialType
CALL ERRORSTOP('NaN in EndPress', l)
END IF
END DO
!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!
BottomHolePress = FlowEl(OpenholeFirstEl)%StartPress
!DO i = 1 , NoGasPocket
! WRITE (*,*) ' Pocket, Pressure, Vol, Flow Induced, FlowElPress', i, REAL(GasPocketNewPress%Array(i)), REAL(GasPocketNewVol%Array(i)), GasPocketFlowInduced%Array(i), FlowEl(GasPocketFlowEl(i , 1))%StartPress
!END DO
!WRITE (*,*) ' BottomHolePress =' , BottomHolePress
!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!IF (ChokeKroneckerDelta == 1) THEN
! WRITE (*,*) ' ChokeLine flowrate' , FlowEl(NoHorizontalEl + NoStringEl + NoAnnulusEl + NoWellToChokeEl)%FlowRate , MudSystem%StringFlowRate
! !i = NoHorizontalEl + NoStringEl + NoAnnulusEl
! !j = NoHorizontalEl + NoStringEl + NoAnnulusEl + NoWellToChokeEl
! !WRITE (*,*) ' Well Outlet and Chokeline Outlet Pressure' , FlowEl(i)%EndPress, FlowEl(j)%EndPress
!END IF
!IF (GasPocket%ElementNo == 0) THEN
! KickUnknownVector(2) = BottomHolePress
!!ELSE
!! KickUnknownVector(2) = FlowEl(GasPocket%ElementNo)%StartPress
!END IF
!IF (WellHeadOpen)
! GasPocket%NewPress = KickUnknownVector(2)
!END IF
!WRITE (*,*) 'Ann End'
END SUBROUTINE

+ 118
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FluidFlow-old/Flow_Startup.f90 Целия файл

@@ -0,0 +1,118 @@
SUBROUTINE FlowStartup
Use ConfigurationVariables
USE Fluid_Flow_Startup_Vars
USE CStringConfigurationVariables
USE CMudPropertiesVariables
USE FricPressDropVarsModule
use KickVARIABLESModule
USE MudSystemVARIABLES
use PressureDisplayVARIABLESModule
USE CShoeVariables
USE TD_DrillStemComponents
USE TD_WellGeometry, pi3 => pi
USE CPathGenerationVariables
USE CWellSurveyDataVariables
Use CHOKEVARIABLES, pi4 => pi

IMPLICIT NONE
INTEGER :: i
PressureGauges(:) = 0.0
KickSinglePocket = Reservoir%MakeKickSinglePacket
IF (KickSinglePocket) THEN
MaxGasPocket = 1
ELSE
MaxGasPocket = 4
END IF
MaxChokeDensityChange = 25.0 ! [ppg/min]
ChokeMinDensity = 2.0

ChokeDensity = MudProperties%ActiveDensity
MinKickVol = 0.5 ! USGal
SecondaryKickVol = 0.0
SecondaryKickWeight = 0.0
NoGasPocket = 0 ! No Kick
WellHeadOpen = .TRUE.
WellHeadWasOpen = .TRUE.
BackPressure = 0.0
GasKickPumpFlowRate = 0.0
DownHole%KickVolume = 0.0
DownHole%InfluxRate = 0.0
ExitMass = 0.0
MinAllowableKickVol = 1.0 * (42.0 / Convft3toUSgal) ! 1 bbl * 42 gal/bbl / 7.48 gal/ft^3 = ... ft^3
StCompressedMudVol = 0.0
AnnCompressedMudVol = 0.0
KickFlux = .FALSE.
KickOffBottom = .FALSE.
KickWasExitingThroughChoke = .FALSE.
FloatValveOpen = .TRUE.
Choke%ChokeAreaFullyOpen = 123.0 / 64.0 ! fully open area is 123/64 in^2 = 0.01334635 ft^2
ChokeBypassArea = PI / 4.0 * BopStackSpecification%ChokeLineId**2
BHPSafetyMargin = 150.0
AChBHPTol = 15.0
ManChoke1Plug = 0
ManChoke2Plug = 0
ManChoke1Washout = 0
ManChoke2Washout = 0
BitJetsPlugged = 0
BitJetsWashedOut = 0
CasingPressure_DataDisplayMalF = 0
SoundSpeed = 1530.0 / Convfttom
PressureTimeStepDelay(1) = INT(2.0 * SUM(Configuration%StringConfiguration%StringConfigurations(2:)%ComponentLength) / SoundSpeed / dt)
PressureTimeStepDelay(2) = INT(PathGeneration%Items(SIZE(PathGeneration%Items))%MeasuredDepth / SoundSpeed / dt)
PressureTimeStepDelay(3) = INT(Shoe%ShoeDepth / SoundSpeed / dt)
!WRITE (*,*) SUM(StringConfigurations(2:)%ComponentLength), PathGenerations(SIZE(PathGenerations))%TotalVerticalDepth!, WellSurveyData(SIZE(WellSurveyData))%TotalVerticalDepth
!WRITE (*,*) PathGenerations(SIZE(PathGenerations))%MeasuredDepth!, WellSurveyData(SIZE(WellSurveyData))%MeasuredDepth
WRITE (*,*) 'time step delay', PressureTimeStepDelay
DO i = 1 , PressureTimeStepDelay(1)
CALL PumpPressureDelay%AddToFirst(0.0)
END DO
DO i = 1 , PressureTimeStepDelay(2)
CALL BottomHolePressureDelay%AddToFirst(REAL(0.052 * MudProperties%ActiveDensity * PathGeneration%Items(SIZE(PathGeneration%Items))%TotalVerticalDepth))
END DO
DO i = 1 , PressureTimeStepDelay(3)
CALL ShoePressureDelay%AddToFirst(REAL(0.052 * MudProperties%ActiveDensity * Shoe%ShoeDepth))
END DO
!!!!!!! Methane Information
GasType(1)%CritPress = 673.0
GasType(1)%CritTemp = 344.0
GasType(1)%MolarWt = 16.04
GasType(1)%StDensity = 0.04238
GasType(1)%GasConstant = RUniversal / GasType(1)%MolarWt
!!!!!!!! H2S Information
GasType(2)%CritPress = 1306.0
GasType(2)%CritTemp = 673.0
GasType(2)%MolarWt = 34.08
GasType(2)%StDensity = 0.09087
GasType(2)%GasConstant = RUniversal / GasType(2)%MolarWt

!!!!!!!! CO2 Information
GasType(3)%CritPress = 1072.0
GasType(3)%CritTemp = 548.0
GasType(3)%MolarWt = 44.01
!GasType(3)%StDensity = 00
GasType(3)%GasConstant = RUniversal / GasType(2)%MolarWt

!!!!!!!! Mud density and viscosity
Theta600Refrence = MudProperties%ActiveThetaSixHundred
Theta300Refrence = MudProperties%ActiveThetaThreeHundred
DensityRefrence = MudProperties%ActiveDensity
END SUBROUTINE

+ 64
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FluidFlow-old/Flow_Startup_VARIABLES.f90 Целия файл

@@ -0,0 +1,64 @@
MODULE Fluid_Flow_Startup_Vars
!!! In this module constants and conversion factors are stated
REAL , PARAMETER :: RUniversal = 10.73159 ! [psia.ft^3/(lbmole.R)]
REAL , PARAMETER :: RUniversalSI = 8.314 * 10**6 ! [Pa.cm^3/(mole.K)]
REAL , PARAMETER :: PI = 3.141593 ! Pi number
REAL , PARAMETER :: StandardPress = 14.7 ! [psia]
REAL , PARAMETER :: StandardTemp = 519.67 ! 60 F [R] , Temp F = Temp R + 459.67
REAL , PARAMETER :: dt = 0.1 ! time step = 0.1 [s]
REAL , PARAMETER :: GasDensityRefrence = 28.96 ! molar weight of air [lbm/lbmole]
!! Tolerance and convergence or error criteria
REAL , PARAMETER :: UTubePressTolerance = 4 ! minimum pressure tolerance between two arms of U tube for which calculations will stop [psi]
!REAL , PARAMETER :: PressDensityTolerance = 2 ! Pressure Density Tolerance: for flow elements with density below this amount (usually gas pockets),
! frictional and gravitional pressure gradients are neglected [ppg]
REAL , PARAMETER :: PressLengthTolerance = 0.0 ! Pressure Length Tolerance: for flow elements with length below this amount,
! frictional and gravitional pressure gradients are neglected [ft]
REAL , PARAMETER :: PressFlowrateTolerance = 0.2 ! Pressure Flowrate Tolerance: for flow elements with flowrates below this amount,
! frictional pressure gradients are neglected [gpm]
REAL , PARAMETER :: KickConvergenceTolerance = 0.05 ! absolute value of maximum error in calculation of gas kick pressure and flowrate
!!!!!!!!!!!!!!!!!! Conversion factors
REAL , PARAMETER :: Convlbftolbm = 32.174 ! 1 lbf = 32.174 lbm*ft/s^2
REAL , PARAMETER :: Convft3toUSgal = 7.48052 ! 1 ft^3 = 7.48052 US gal
REAL , PARAMETER :: Convfttom = 0.3048 ! 1 ft = 0.3048 m
REAL , PARAMETER :: Convfttoinch = 12.0 ! 1 ft = 12 inch
REAL , PARAMETER :: Convdaytohour = 24.0 ! 1 day = 24 hour
REAL , PARAMETER :: Convhourtomin = 60.0 ! 1 hour = 60 min
REAL , PARAMETER :: Convmintosec = 60.0 ! 1 min = 60 sec
REAL , PARAMETER :: ConvpsitoPa = 6894.76 ! 1 psi = 6894.76 pa
REAL , PARAMETER :: ConvRtoK = 0.555556 ! 1 R = 0.555556 K
REAL , PARAMETER :: Convpcftogpcm3 = 0.0160185 ! 1 lbm/ft^3 = 0.0160185 gr/cm^3
!!!!!!!!!!!!!!!!!
!!!!!!! Bit data !!!!!!
! Type :: BitDataType
LOGICAL :: BitTrue ! bit may be present (.TRUE.) or may be absent(.FALSE.)
REAL :: BitNozzleArea ! area of a nozzle
INTEGER :: BitNozzleNum ! Number of bit nozzles
REAL :: BitNozzDia ! nozzle diameter in 1/32 in
REAL :: BitTotNozzArea ! Total bit area
REAL :: BitCd ! Discharge coefficient
REAL :: BitPressLoss ! bit pressure loss [psi]
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
REAL :: Theta600Refrence , Theta300Refrence ! Fann data (Theta600 and Theta300) of active tank (input from panel)
REAL :: DensityRefrence ! Density of active tank mud (input from panel) [gpm]
! End Type BitDataType
! Type(BitDataType)::BitData
TYPE, PUBLIC :: GasData
REAL :: CritPress ! critical pressure [psia]
REAL :: CritTemp ! critical temperature [R]
REAL :: MolarWt ! molar weight [lbm/lbmole]
REAL :: StDensity ! density at standard pressure (14.7 psi) and temperature (60 F = 520 Ra) [lbm/ft^3]
REAL :: GasConstant ! Gas constant = RUniversal/MolarWt [psia.ft^3/(R.lbm)]
END TYPE GasData
TYPE(GasData) :: GasType(3) ! 1 = methane , 2 = Hydrogen sulfide , 3 = Carbon dioxid

END MODULE

+ 147
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FluidFlow-old/FluidFlowMain.f90 Целия файл

@@ -0,0 +1,147 @@
module FluidFlowMain
implicit none
public
contains
!
! subroutine FluidFlow_Setup()
! ! use CSimulationVariables
! implicit none
! !call OnSimulationInitialization%Add(FluidFlow_Init)
! call OnSimulationStop%Add(FluidFlow_Stop)
! call OnFluidFlowStart%Add(FluidFlow_Start)
! call OnFluidFlowStep%Add(FluidFlow_Step)
! !call OnFluidFlowOutput%Add(FluidFlow_Output)
! call OnFluidFlowMain%Add(FluidFlowMainBody)
! end subroutine
! subroutine FluidFlow_Stop
! implicit none
! !WRITE (*,*) ' fluid flow done_Stop'
! call DEALLOCATE_ARRAYS_NormalCirculation()
! CALL DeallocateFlowTypes
! end subroutine FluidFlow_Stop
subroutine FluidFlow_Init
USE Fluid_Flow_Startup_Vars
implicit none
!WRITE (*,*) ' fluid flow done_Start'
CALL NormalCirculation_StartUp()
CALL FlowStartup
Call TD_StartUp
Call TD_WellReadData
Call TD_WellElementsReadData
Call TD_DrillStemReadData
Call TD_PipePropertiesReadData
end subroutine FluidFlow_Init
subroutine FluidFlow_Step
implicit none
integer :: i, FlowDuration, SimulationStateOld
integer,dimension(8) :: FlowStartTime,FlowEndTime
!WRITE (*,*) ' fluid flow done_Step'
!call Fluid_Flow_Solver
CALL DATE_AND_TIME(values=FlowStartTime)
call Fluid_Flow_Solver
CALL DATE_AND_TIME(values=FlowEndTime)

FlowDuration = 3600000 * (FlowEndTime(5) - FlowStartTime(5)) + 60000 * (FlowEndTime(6) - FlowStartTime(6)) + 1000 * (FlowEndTime(7) - FlowStartTime(7)) + (FlowEndTime(8) - FlowStartTime(8))
WRITE (*,*) 'FlowDuration (ms)=' , FlowDuration
end subroutine FluidFlow_Step
!subroutine FluidFlow_Output
! implicit none
!end subroutine FluidFlow_Output
! subroutine FluidFlowMainBody
! !
! use ifport
! use ifmt
! ! use CSimulationVariables
! USE Fluid_Flow_Startup_Vars
! !use general_info, only : reset_data
! !use well_info
! !use drilling_info
! use CLog1
! !
! implicit none

!integer :: i, FlowDuration, SimulationStateOld
!integer,dimension(8) :: FlowStartTime,FlowEndTime
!
!
!CALL NormalCirculation_StartUp()
!CALL FlowStartup
!
!Call TD_StartUp
!Call TD_WellReadData
!Call TD_WellElementsReadData
!Call TD_DrillStemReadData
!Call TD_PipePropertiesReadData
!
!
!LoopSimulation: do
! !WRITE (*,*) ' fluid flow done 0'
!!
! CALL DATE_AND_TIME(values=FlowStartTime)
! !WRITE (*,*) 'FlowStartTime=', FlowStartTime
!!
! call Fluid_Flow_Solver
!
!!
! CALL DATE_AND_TIME(values=FlowEndTime)
!!
! !WRITE (*,*) ' fluid flow done 1'
!
!
!
! FlowDuration = 3600000 * (FlowEndTime(5) - FlowStartTime(5)) + 60000 * (FlowEndTime(6) - FlowStartTime(6)) + 1000 * (FlowEndTime(7) - FlowStartTime(7)) + (FlowEndTime(8) - FlowStartTime(8))
!
!
! !call Log_1('FlowDuration=', FlowDuration)
! !WRITE (*,*) 'FlowDuration (ms)=' , FlowDuration
!
! if ((100 - FlowDuration) > 0) then
! !WRITE (*,*) 'fluid flow done 2'
! call sleepqq(100 - FlowDuration)
! !WRITE (*,*) ' fluid flow done 3'
!
! end if
! !WRITE (*,*) ' fluid flow done 4'
!
!
!
! !WRITE (*,*) "FlowDuration", FlowDuration
! !if(IsStopped) then
! ! EXIT LoopSimulation
! !ENDIF
! !write(*,*) 'IsStopped=' , IsStopped
!
! if(IsStopped) then
! !write(*,*) '44444444444'
!
! call DEALLOCATE_ARRAYS_NormalCirculation()
! CALL DeallocateFlowTypes
! call Quit()
! end if
! !
! ! if(IsStopped) exit LoopSimulation
! !
!end do LoopSimulation
!!call DEALLOCATE_ARRAYS_NormalCirculation()
!!CALL DeallocateFlowTypes
!
!
! end subroutine FluidFlowMainBody
end module FluidFlowMain

+ 58
- 0
FluidFlow-old/Fluid_Flow_Solver.f90 Целия файл

@@ -0,0 +1,58 @@
subroutine Fluid_Flow_Solver
Use GeoElements_FluidModule
use UTUBEVARSModule
use KickVARIABLESModule
use PressureDisplayVARIABLESModule
USE FricPressDropVarsModule
USE MudSystemVARIABLES
USE Fluid_Flow_Startup_Vars
USE CError
implicit none
INTEGER :: FlowDuration
Integer :: qwer
integer,dimension(8) :: FlowStartTime,FlowEndTime
!WRITE (*,*) ' fluid flow pointer 1'
CALL TD_MainCalculations
Call MeshGeneration_FluidModule
!WRITE (*,*) ' fluid flow pointer 2'
MudSystem%FluidFlowCounter = MudSystem%FluidFlowCounter + 1
call CirculationCodeSelect

CALL WellPressureDataTransfer
CALL FormationInformationCalculator
DO KickIteration = 1 , 40

!WRITE (*,*) ' Kick Iteration', KickIteration
CALL PressureAnnAndOHDistribution
IF (NoGasPocket > 0) THEN
!KickCorrectionVector(:) = 1.
CALL GasKickCalculator
END IF
IF (NoGasPocket == 0 .OR. NOT(WellHeadOpen)) EXIT
IF(MAXVAL(ABS(KickVandPFunction(:))) < KickConvergenceTolerance) EXIT
!IF(MAXVAL(ABS(KickCorrectionVector(:))) < KickConvergenceTolerance) EXIT
END DO
CALL PressureHorizAndStringDistribution
IF (KickIteration == 41) THEN
WRITE (*,*) ' KickCorrectionVector ' , KickCorrectionVector
WRITE (*,*) ' Kick Jacobian = ', KickJacobian
END IF
end subroutine

+ 230
- 0
FluidFlow-old/Frictional_Press_Drop_Calc.f90 Целия файл

@@ -0,0 +1,230 @@
SUBROUTINE FricPressDrop(iloc)

!! Record of revisions
!! Date Programmer Discription of change
!! ------ ------------ -----------------------
!! 1396/07/23 Sheikh Original code
!!
USE FricPressDropVarsModule
USE CMudPropertiesVariables
USE Fluid_Flow_Startup_Vars
USE CError
IMPLICIT NONE

INTEGER :: iloc
REAL :: TauZero
TauZero = 12.0
!ActiveRheologyModel = Herschel_Bulkley_RheologyModel

! 0 = Power Law , 1 = Bingham Plastic , 2 = Newtonian
!TotFricPressLoss = 0.0
FlowEl(iloc)%alpha = 1 ! assume that all elements have annulus geometry
FlowEl(iloc)%dPdLfric = 0.0
FlowEl(iloc)%f = 0.0
FlowEl(iloc)%FlowRate = ABS(FlowEl(iloc)%FlowRate)
IF ((FlowEl(iloc)%FlowRate >= PressFlowrateTolerance) &
.AND. (FlowEl(iloc)%MaterialType /= 1) & ! not gas kick
.AND. (ABS(FlowEl(iloc)%Length) >= PressLengthTolerance) &
.AND. (FlowEl(iloc)%MaterialType /= 4)) THEN ! not air
IF (FlowEl(iloc)%Id==0) THEN
FlowEl(iloc)%alpha = 0
END IF
FlowEl(iloc)%muPlastic = FlowEl(iloc)%Theta600 - FlowEl(iloc)%Theta300 ! cp
FlowEl(iloc)%YieldP = 2.0 * FlowEl(iloc)%Theta300 - FlowEl(iloc)%Theta600 ! lbf/100ft**2
FlowEl(iloc)%nIndex = 3.32 * log10(FlowEl(iloc)%Theta600 / FlowEl(iloc)%Theta300)
FlowEl(iloc)%kIndex = 510.0 * FlowEl(iloc)%Theta300 / (511.0**FlowEl(iloc)%nIndex) ! rabete fv2
IF (MudProperties%ActiveRheologyModel == Herschel_Bulkley_RheologyModel .AND. FlowEl(iloc)%alpha == 0) THEN
FlowEl(iloc)%kIndex = 1.066 * FlowEl(iloc)%Theta300 / (511.0**FlowEl(iloc)%nIndex)
ELSE IF (MudProperties%ActiveRheologyModel == Herschel_Bulkley_RheologyModel .AND. FlowEl(iloc)%alpha == 1) THEN
FlowEl(iloc)%nIndex = 3.32 * log10((FlowEl(iloc)%Theta600 - TauZero) / (FlowEl(iloc)%Theta300 - TauZero))
FlowEl(iloc)%kIndex = 1.066 * (FlowEl(iloc)%Theta300 - TauZero) / (511.0**FlowEl(iloc)%nIndex)
END IF
! Calculating velocity
FlowEl(iloc)%vel = 0.408 * FlowEl(iloc)%FlowRate / (FlowEl(iloc)%Od**2 - FlowEl(iloc)%Id**2) ! velocity in ft/s
!FlowEl(iloc)%vel = 24.51 * FlowEl(iloc)%FlowRate / (FlowEl(iloc)%Od**2 - FlowEl(iloc)%Id**2) ! velocity in ft/min

!IF (FlowModel == Bingham_RheologyModel) THEN ! Bingham Plastic
! FlowEl(iloc)%Gf = (2. + FlowEl(iloc)%alpha) / 2.
!ELSE IF (FlowModel == PowerLow_RheologyModel) THEN
! FlowEl(iloc)%Gf = ((3. - FlowEl(iloc)%alpha) * FlowEl(iloc)%nIndex + 1.) / FlowEl(iloc)%nIndex / (4. - FlowEl(iloc)%alpha) * (2. + FlowEl(iloc)%alpha) / 2.
!END IF
!FlowEl(iloc)%gammaW = 1.6 * FlowEl(iloc)%Gf * FlowEl(iloc)%vel / FlowEl(iloc)%Dhyd
!IF (FlowModel == Bingham_RheologyModel) THEN ! Bingham Plastic
! FlowEl(iloc)%tauW = 1.067 * ((4. - FlowEl(iloc)%alpha) / (3. - FlowEl(iloc)%alpha) * FlowEl(iloc)%YieldP + FlowEl(iloc)%muPlastic * FlowEl(iloc)%gammaW)
! !FlowEl(iloc)%tauW = 1.067*(FlowEl(iloc)%YieldP+FlowEl(iloc)%muPlastic*FlowEl(iloc)%gammaW)
!ELSE IF (FlowModel == PowerLow_RheologyModel) THEN ! Power law
! FlowEl(iloc)%tauW = 1.067 * FlowEl(iloc)%kIndex * FlowEl(iloc)%gammaW**FlowEl(iloc)%nIndex
!END IF
! Calculating effective or apparent viscosity
IF (MudProperties%ActiveRheologyModel == Bingham_RheologyModel) THEN ! Bingham Plastic
FlowEl(iloc)%mueff = FlowEl(iloc)%muPlastic + 5. * FlowEl(iloc)%YieldP * FlowEl(iloc)%Dhyd / FlowEl(iloc)%vel
!write(*,*) 'pointer1' , FlowEl(iloc)%muPlastic , FlowEl(iloc)%YieldP , FlowEl(iloc)%Dhyd , FlowEl(iloc)%vel
ELSE IF (MudProperties%ActiveRheologyModel == PowerLaw_RheologyModel .OR. MudProperties%ActiveRheologyModel == Herschel_Bulkley_RheologyModel) THEN ! Power Law
FlowEl(iloc)%Gf = ((3. - FlowEl(iloc)%alpha) * FlowEl(iloc)%nIndex + 1.0) / FlowEl(iloc)%nIndex / (4.0 - FlowEl(iloc)%alpha) * (2.0 + FlowEl(iloc)%alpha) / 2.0
FlowEl(iloc)%mueff = (FlowEl(iloc)%kIndex) / (1. + FlowEl(iloc)%alpha / 2.) * ((96. * FlowEl(iloc)%vel / FlowEl(iloc)%Dhyd)**(FlowEl(iloc)%nIndex - 1)) * FlowEl(iloc)%Gf**FlowEl(iloc)%nIndex
!write(*,*) 'pointer2' , FlowEl(iloc)%kIndex ,FlowEl(iloc)%alpha , FlowEl(iloc)%vel ,FlowEl(iloc)%Dhyd,FlowEl(iloc)%nIndex ,FlowEl(iloc)%Gf ,FlowEl(iloc)%nIndex
END IF
FlowEl(iloc)%gammaW = 96.0 * FlowEl(iloc)%Gf * FlowEl(iloc)%vel / FlowEl(iloc)%Dhyd
FlowEl(iloc)%tauW = ((4.0 - FlowEl(iloc)%alpha) / (3.0 - FlowEl(iloc)%alpha))**FlowEl(iloc)%nIndex * TauZero + FlowEl(iloc)%kIndex * FlowEl(iloc)%gammaW**FlowEl(iloc)%nIndex
! Calculating Reynolds number
IF (FlowEl(iloc)%Od == FlowEl(iloc)%Dhyd) THEN
FlowEl(iloc)%GenRe = 928. * FlowEl(iloc)%density * FlowEl(iloc)%vel * FlowEl(iloc)%Dhyd / FlowEl(iloc)%mueff
ELSE
FlowEl(iloc)%GenRe = 757. * FlowEl(iloc)%density * FlowEl(iloc)%vel * FlowEl(iloc)%Dhyd / FlowEl(iloc)%mueff
END IF
!FlowEl(iloc)%GenRe = 2997 * FlowEl(iloc)%density * FlowEl(iloc)%vel**2 / 19.36 / FlowEl(iloc)%tauW
! Calculating friction factor
IF (MudProperties%ActiveRheologyModel == Bingham_RheologyModel) THEN ! Bingham Plastic
IF (FlowEl(iloc)%GenRe <= 2000.0) THEN ! laminar regime
FlowEl(iloc)%f = 16.0 / FlowEl(iloc)%GenRe
ELSE IF (FlowEl(iloc)%GenRe >= 4000.0) THEN ! turbulent regime
FlowEl(iloc)%a = 0.0791
FlowEl(iloc)%b = 0.25
FlowEl(iloc)%f = FlowEl(iloc)%a / FlowEl(iloc)%GenRe**FlowEl(iloc)%b
ELSE !! transition from laminar to turbulent regime
FlowEl(iloc)%a = 0.0791
FlowEl(iloc)%b = 0.25
FlowEl(iloc)%f = (4000.0 - FlowEl(iloc)%GenRe) / 2000.0 * 16. / FlowEl(iloc)%GenRe &
+ (FlowEl(iloc)%GenRe - 2000.0) / 2000.0 * FlowEl(iloc)%a / FlowEl(iloc)%GenRe**FlowEl(iloc)%b
END IF
ELSE IF (MudProperties%ActiveRheologyModel == PowerLaw_RheologyModel) THEN ! Power law
FlowEl(iloc)%ReCritLam = 3470. - 1370. * FlowEl(iloc)%nIndex
FlowEl(iloc)%ReCritTurb = 4270. - 1370. * FlowEl(iloc)%nIndex
IF (FlowEl(iloc)%GenRe <= FlowEl(iloc)%ReCritLam) THEN ! laminar regime
FlowEl(iloc)%f = 16.0 / FlowEl(iloc)%GenRe / (1 - 0.184 * FlowEl(iloc)%alpha)
ELSE IF (FlowEl(iloc)%GenRe >= FlowEl(iloc)%ReCritTurb) THEN ! turbulent regime
FlowEl(iloc)%a = (log10(FlowEl(iloc)%nIndex) + 3.93) / 50.
FlowEl(iloc)%b = (1.75 - log10(FlowEl(iloc)%nIndex)) / 7.
FlowEl(iloc)%f = FlowEl(iloc)%a / FlowEl(iloc)%GenRe**FlowEl(iloc)%b
ELSE
FlowEl(iloc)%a = (log10(FlowEl(iloc)%nIndex) + 3.93) / 50.
FlowEl(iloc)%b = (1.75 - log10(FlowEl(iloc)%nIndex)) / 7.
FlowEl(iloc)%f = (FlowEl(iloc)%ReCritTurb - FlowEl(iloc)%GenRe) / 800.0 * 16. / FlowEl(iloc)%GenRe &
+ (FlowEl(iloc)%GenRe - FlowEl(iloc)%ReCritLam) / 800.0 * FlowEl(iloc)%a / FlowEl(iloc)%GenRe**FlowEl(iloc)%b
END IF
END IF
!WRITE (*,*) 'fric press drop', iloc
!WRITE (*,*) 'Length', ABS(REAL(FlowEl(iloc)%Length))
!WRITE (*,*) 'FlowRate', FlowEl(iloc)%FlowRate
!WRITE (*,*) 'Theta600 , Theta300', FlowEl(iloc)%Theta600 , FlowEl(iloc)%Theta300
!WRITE (*,*) 'Dhyd', FlowEl(iloc)%Dhyd
!WRITE (*,*) 'GenRe', FlowEl(iloc)%GenRe
!WRITE (*,*) 'f', FlowEl(iloc)%f
END IF

! Frictional pressure loss gradient calculation
! FlowEl(iloc)%dPdLfric = 1.076 * FlowEl(iloc)%f * FlowEl(iloc)%vel**2 * FlowEl(iloc)%density / 10**5 / FlowEl(iloc)%Dhyd
FlowEl(iloc)%dPdLfric = FlowEl(iloc)%f * (FlowEl(iloc)%vel)**2 * FlowEl(iloc)%density / 25.81 / FlowEl(iloc)%Dhyd
FlowEl(iloc)%FricPressLoss = FlowEl(iloc)%dPdLfric * ABS(REAL(FlowEl(iloc)%Length))
IF (FlowEl(iloc)%FrictionDirection == -1) THEN
FlowEl(iloc)%FlowRate = - FlowEl(iloc)%FlowRate
FlowEl(iloc)%dPdLfric = - FlowEl(iloc)%dPdLfric
FlowEl(iloc)%FricPressLoss = - FlowEl(iloc)%FricPressLoss
END IF
!END DO


END SUBROUTINE FricPressDrop
SUBROUTINE PartialDerivativeFricToFlowRate(iloc)
USE FricPressDropVarsModule
USE CMudPropertiesVariables
USE Fluid_Flow_Startup_Vars
use KickVARIABLESModule
USE CError
IMPLICIT NONE

INTEGER :: iloc
FlowEl(iloc)%FricToQPartialDiff = 0.0
!FlowEl(iloc)%FlowRate = ABS(FlowEl(iloc)%FlowRate)
IF ((ABS(FlowEl(iloc)%FlowRate) >= PressFlowrateTolerance) &
.AND. (FlowEl(iloc)%MaterialType /= 1) & ! not gas kick
.AND. (ABS(FlowEl(iloc)%Length) >= PressLengthTolerance) &
.AND. (FlowEl(iloc)%MaterialType /= 4)) THEN ! not air
IF (MudProperties%ActiveRheologyModel == PowerLaw_RheologyModel) THEN ! Power law
!IF (FlowEl(iloc)%Flowrate == 0.0) THEN
! FlowEl(iloc)%Flowrate = 10.0
! CALL FricPressDrop(iloc)
!END IF
IF (FlowEl(iloc)%GenRe <= FlowEl(iloc)%ReCritLam) THEN ! laminar flow
FlowEl(iloc)%FricToQPartialDiff = FlowEl(iloc)%FricPressLoss / FlowEl(iloc)%FlowRate * FlowEl(iloc)%nIndex
ELSE IF (FlowEl(iloc)%GenRe >= FlowEl(iloc)%ReCritTurb) THEN ! turbulent flow
FlowEl(iloc)%FricToQPartialDiff = FlowEl(iloc)%FricPressLoss / FlowEl(iloc)%FlowRate &
* (2. - FlowEl(iloc)%b * (2. - FlowEl(iloc)%nIndex))
ELSE ! transition from laminar to turbulent
FlowEl(iloc)%FricToQPartialDiff = FlowEl(iloc)%FricPressLoss / FlowEl(iloc)%FlowRate &
* (2. + (2. - FlowEl(iloc)%nIndex) &
* ((FlowEl(iloc)%a * FlowEl(iloc)%GenRe**(1. - FlowEl(iloc)%b) - 16.) / 800. / FlowEl(iloc)%f - 1.))
END IF
ELSE IF (MudProperties%ActiveRheologyModel == Bingham_RheologyModel) THEN ! Bingham Plastic
IF (FlowEl(iloc)%GenRe <= 2000.0 .OR. FlowEl(iloc)%f == 0.0) THEN ! laminar flow if f = 0.0, we have no flow in first time flowing
FlowEl(iloc)%FricToQPartialDiff = (16. * FlowEl(iloc)%muPlastic * REAL(FlowEl(iloc)%Length) * 2.224 * (10.)**(-3)) &
/ (25.81 * 928. * (1 - 0.184 * FlowEl(iloc)%alpha) * FlowEl(iloc)%Dhyd**2 * FlowEl(iloc)%Area)
ELSE IF (FlowEl(iloc)%GenRe >= 4000.0) THEN ! turbulent flow
FlowEl(iloc)%FricToQPartialDiff = FlowEl(iloc)%FricPressLoss / FlowEl(iloc)%FlowRate &
* (2. - FlowEl(iloc)%b * (2. - FlowEl(iloc)%muPlastic / FlowEl(iloc)%mueff))
ELSE ! transition from laminar to turbulent
FlowEl(iloc)%FricToQPartialDiff = FlowEl(iloc)%FricPressLoss / FlowEl(iloc)%FlowRate &
* (2. + (2. - FlowEl(iloc)%muPlastic / FlowEl(iloc)%mueff) &
* ((FlowEl(iloc)%a * FlowEl(iloc)%GenRe**(1. - FlowEl(iloc)%b) - 16.) / 2000. / FlowEl(iloc)%f - 1.))
END IF
END IF
END IF
IF (FlowEl(iloc)%FricToQPartialDiff < 0.0) THEN
!WRITE (*,*) ' iloc, Re, FricPressLoss, FricToQPartialDiff' , iloc, FlowEl(iloc)%GenRe, FlowEl(iloc)%FricPressLoss, FlowEl(iloc)%FricToQPartialDiff
!CALL ERRORSTOP('Error in Calculating FricToQPartialDiff')
END IF
END SUBROUTINE PartialDerivativeFricToFlowRate

+ 799
- 0
FluidFlow-old/Horizontal_and_String_Pressure_Distribution.f90 Целия файл

@@ -0,0 +1,799 @@
SUBROUTINE PressureHorizAndStringDistribution
!! Record of revisions
!! Date Programmer Discription of change
!! ------ ------------ -----------------------
!! 1396/07/30 Sheikh Original code
!!
USE FricPressDropVarsModule
use PressureDisplayVARIABLESModule
USE MudSystemVARIABLES
USE GeoElements_FluidModule
USE Fluid_Flow_Startup_Vars
use KickVARIABLESModule
USE CMudPropertiesVariables
USE CDataDisplayConsoleVariables !, StandPipePressureDataDisplay=> ChokeControlPanel%StandPipePressure
USE CDataDisplayConsoleVariables !, CasingPressureDataDisplay=> CasingPressure
USE CDrillWatchVariables
USE CShoeVariables
USE CDownHoleVariables! , OperationScenarioCommon%ElevatorConnection => DownHole%CasingPressure
USE TD_WellGeometry
USE CManifolds
USE VARIABLES
USE CError
use UTUBEVARSModule
USE CKellyConnectionEnumVariables
USE Pumps_VARIABLES
USE , INTRINSIC :: IEEE_ARITHMETIC
Use TD_DrillStemComponents
Use sROP_Variables

IMPLICIT NONE
INTEGER :: i , j , l
INTEGER :: ifric
INTEGER :: OldCasingPressure
REAL :: PressBelowFloatValve , PressAboveFloatValve ![psi]
REAL :: PumpMinDischargedVol = 0.0050 ! [gal]
REAL :: FloatValveBottomToUpAreaRatio = 1.1 ![-]
REAL :: ZeroHeight , StaticHeadOnBit
REAL(8) :: ShoeTVD
!REAL(8) , DIMENSION(5) :: MDObserve , TVDObserve , StPressObserve , AnnPressObserve , NomMD
ExitMass = 0.0
BitPressLoss = 0.0
WellHeadWasOpen = WellHeadOpen
WellToChokeManifoldWasOpen = MudSystem%WellToChokeManifoldOpen
KickWasExitingThroughChoke = .FALSE.
IF (MudSystem%UtubeMode1Activated .OR. FloatValveWasOpen == .FALSE.) THEN ! Horizontal line flow rate
FlowEl(1 : NoHorizontalEl)%FlowRate = 0.0
ELSE ! connection and line is open
FlowEl(1 : NoHorizontalEl)%FlowRate = MudSystem%StringFlowRate ! pump flow rate [gpm]
END IF
!WRITE (*,*) 'a)A/B P Bit', StaticHeadOnBit , FlowEl(AnnulusFirstEl)%StartPress , SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff)
!IF (FloatValveIn == .FALSE.) FloatValveOpen = .TRUE.
FloatValveWasOpen = FloatValveOpen
PressBelowFloatValve = FlowEl(AnnulusFirstEl)%StartPress
StMudVol = SUM(FlowEl(1 : StringLastEl)%Volume) * Convft3toUSGal
StDeltaPtoDeltaVCompressibility = 1.0 / (MudCompressibility * StMudVol)
AnnMudVol = SUM(FlowEl(AnnulusFirstEl : NumbEl)%Volume) * Convft3toUSGal
!StCompressedMudVol = StCompressedMudVol + REAL(St_Saved_MudDischarged_Volume_Final)
!WRITE (*,*) 'St_Saved_MudDischarged_Volume_Final', REAL(St_Saved_MudDischarged_Volume_Final)
!StDeltaPDueToCompressibility = StCompressedMudVol / (MudCompressibility * StMudVol)
!PressAboveFloatValve = StDeltaPDueToCompressibility + SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff) !!FlowEl(StringLastEl)%EndPress
!IF (NoGasPocket > 0) THEN ! mud exprience no comressibility
!IF (KickVolume > 2.0) THEN
IF ( (DownHole%KickVolume > 2.0) .or. (NoGasPocket>1) .or. (any(FlowEl(OpenholeFirstEl:NumbEl)%Materialtype==1)) .or. (ROP_bit%RateofPenetration > 0.0) ) THEN
AnnCompressedMudVol = 0.0
AnnDeltaPDueToCompressibility = 0.0
ELSE IF (WellHeadOpen) THEN
AnnDeltaPtoDeltaVCompressibility = 1.0 / (MudCompressibility * AnnMudVol)
AnnCompressedMudVol = BackPressure / AnnDeltaPtoDeltaVCompressibility
AnnDeltaPDueToCompressibility = AnnCompressedMudVol / (MudCompressibility * AnnMudVol)
ELSE ! No gas pocket, wellhead is closed and mud is compressed based on volume pumped into annulus
AnnDeltaPtoDeltaVCompressibility = 1.0 / (MudCompressibility * AnnMudVol)
AnnCompressedMudVol = AnnCompressedMudVol + REAL(MudSystem%Ann_Saved_MudDischarged_Volume_Final) !!!!!!!!!
AnnCompressedMudVol = MAX((AnnCompressedMudVol - REAL(MudSystem%Qlost / ConvMinToSec / dt)) , 0.0)
AnnDeltaPDueToCompressibility = AnnCompressedMudVol / (MudCompressibility * AnnMudVol)
END IF
IF (FloatValveIn == .FALSE. .OR. NoGasPocket == 0 .OR. (FloatValveWasOpen .AND. REAL(MudSystem%St_Saved_MudDischarged_Volume_Final) >= PumpMinDischargedVol)) THEN ! float valve remains open
FloatValveOpen = .TRUE.
FlowEl(StringFirstEl : StringLastEl)%FlowRate = REAL(MudSystem%St_Saved_MudDischarged_Volume_Final) / dt * ConvMinToSec !MudSystem%StringFlowRate ! String flow rate pump flow rate [gpm]
!!!!!!!!!!!!!!! Calculating frictional pressure loss
IF (WellHeadOpen) THEN
DO ifric = 1 , StringLastEl
CALL FricPressDrop(ifric)
!WRITE (*,*) ' element No, FlowRate , Density, FricPressLoss', ifric, FlowEl(ifric)%FlowRate, FlowEl(ifric)%Density, FlowEl(ifric)%FricPressLoss
IF (IEEE_IS_NaN(FlowEl(ifric)%FricPressLoss)) THEN
WRITE (*,*) 'Hz/St start, end, density, Q, mu, Type' , FlowEl(ifric)%StartX, FlowEl(ifric)%EndX, FlowEl(ifric)%Density, FlowEl(ifric)%FlowRate, FlowEl(ifric)%mueff, FlowEl(ifric)%MaterialType
CALL ErrorStop('NaN in calculating pressure drop' , ifric)
END IF
END DO
END IF
!!!!!!!!!!!!!!!
!IF (ABS(MudVolume_InjectedToBH - St_Saved_MudDischarged_Volume_Final)> PumpMinDischargedVol) WRITE (*,*) 'Injected to BH & St Saved Mud', MudVolume_InjectedToBH , St_Saved_MudDischarged_Volume_Final
IF (BitTotallyPluged) THEN
MudSystem%MudVolume_InjectedToBH = 0.d0
StCompressedMudVol = StCompressedMudVol + REAL(MudSystem%St_Saved_MudDischarged_Volume_Final)
StDeltaPDueToCompressibility = StCompressedMudVol * StDeltaPtoDeltaVCompressibility
ELSE IF (WellHeadOpen .OR. NoGasPocket > 0) THEN
IF (REAL(MudSystem%St_Saved_MudDischarged_Volume_Final) >= PumpMinDischargedVol) THEN
MudSystem%MudVolume_InjectedToBH = MudSystem%St_Saved_MudDischarged_Volume_Final
!WRITE (*,*) 'MudVolume_InjectedToBH,BitTrue', MudVolume_InjectedToBH
!IF (BitTrue .AND. UtubeMode1Activated == .FALSE.) THEN
IF (BitTrue) THEN
BitPressLoss = KBit * (MudSystem%MudVolume_InjectedToBH * ConvMinToSec / dt)**2
!WRITE (*,*) 'BitPressLoss', BitPressLoss
END IF
StCompressedMudVol = BitPressLoss / StDeltaPtoDeltaVCompressibility
ELSE
MudSystem%MudVolume_InjectedToBH = MAX( 0.d0 , REAL((StDeltaPDueToCompressibility + SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff - PressBelowFloatValve - AnnDeltaPDueToCompressibility - FloatValveMinOpenPressure) &
/ StDeltaPtoDeltaVCompressibility ) * 1.d0))
MudSystem%MudVolume_InjectedToBH = MIN(MudSystem%MudVolume_InjectedToBH , StCompressedMudVol)
StCompressedMudVol = StCompressedMudVol - MudSystem%MudVolume_InjectedToBH
END IF
StDeltaPDueToCompressibility = StCompressedMudVol / (MudCompressibility * StMudVol)
ELSE ! IF (NoGasPocket == 0 .AND. WellHeadOpen == .FALSE.) THEN
StCompressedMudVol = StCompressedMudVol + REAL(MudSystem%St_Saved_MudDischarged_Volume_Final)
StDeltaPDueToCompressibility = StCompressedMudVol * StDeltaPtoDeltaVCompressibility
MudSystem%MudVolume_InjectedToBH = MAX( 0.d0 , REAL((StDeltaPDueToCompressibility - AnnDeltaPDueToCompressibility - FloatValveMinOpenPressure) &
/ (StDeltaPtoDeltaVCompressibility + AnnDeltaPtoDeltaVCompressibility)) * 1.d0)
MudSystem%MudVolume_InjectedToBH = MIN(MudSystem%MudVolume_InjectedToBH , StCompressedMudVol)
StCompressedMudVol = StCompressedMudVol - REAL(MudSystem%MudVolume_InjectedToBH)
StDeltaPDueToCompressibility = StCompressedMudVol / (MudCompressibility * StMudVol)
FlowEl(AnnulusFirstEl : NumbEl)%StartPress = FlowEl(AnnulusFirstEl : NumbEl)%StartPress + StDeltaPDueToCompressibility
FlowEl(AnnulusFirstEl : NumbEl)%EndPress = FlowEl(AnnulusFirstEl : NumbEl)%EndPress + StDeltaPDueToCompressibility
!WRITE (*,*) 'WellHeadOpen', WellHeadOpen
!WRITE (*,*) ' StCompressedMudVol, StDeltaPDueToCompressibility',StCompressedMudVol, StDeltaPDueToCompressibility
!WRITE (*,*) ' AnnCompressedMudVol, AnnDeltaPDueToCompressibility',AnnCompressedMudVol, AnnDeltaPDueToCompressibility
END IF

FlowEl(StringLastEl)%EndPress = FlowEl(AnnulusFirstEl)%StartPress + BitPressLoss + FloatValveMinOpenPressure
!WRITE (*,*) 'BitPressLoss=', BitPressLoss
FlowEl(StringLastEl)%StartPress = FlowEl(StringLastEl)%EndPress + FlowEl(StringLastEl)%FricPressLoss - FlowEl(StringLastEl)%StaticPressDiff
DO i = StringLastEl - 1 , StringFirstEl , -1
FlowEl(i)%EndPress = FlowEl(i + 1)%StartPress
FlowEl(i)%StartPress = FlowEl(i)%EndPress + FlowEl(i)%FricPressLoss - FlowEl(i)%StaticPressDiff
!WRITE(*,*) "STRING: Start , End Pressure", FlowEl(i)%StartPress , FlowEl(i)%EndPress
!WRITE(*,*) "STRING: Start , End X", FlowEl(i)%StartX , FlowEl(i)%EndX
END DO
!FlowEl(NoHorizontalEl)%EndPress = FlowEl(StringFirstEl)%StartPress - FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD
!WRITE (*,*) '- FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD1=', - FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD
!FlowEl(NoHorizontalEl)%StartPress = FlowEl(NoHorizontalEl)%EndPress + FlowEl(StringLastEl)%FricPressLoss
!DO i = NoHorizontalEl - 1 , 1 , -1
! FlowEl(i)%EndPress = FlowEl(i + 1)%StartPress
! FlowEl(i)%StartPress = FlowEl(i)%EndPress + FlowEl(i)%FricPressLoss
! !WRITE(*,*) "HORIZONTAL: Start , End Pressure", FlowEl(i)%StartPress , FlowEl(i)%EndPress
! !WRITE(*,*) "HORIZONTAL: Start , End X", FlowEl(i)%StartX , FlowEl(i)%EndX
!END DO
!!!!!!!!!!!!!!!!!!!!!!!!!!!! Float valve was open and remains open
ELSE IF (REAL(MudSystem%St_Saved_MudDischarged_Volume_Final) < PumpMinDischargedVol) THEN ! NoGasPocket > 0
FloatValveOpen = FloatValveWasOpen ! remains in its former status
IF (FloatValveOpen) THEN
PressAboveFloatValve = MAX(FlowEl(AnnulusFirstEl)%StartPress , SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff) + 0.052 * FlowEl(StringFirstEl)%Density * FlowEl(StringFirstEl)%StartTVD)
ELSE
PressAboveFloatValve = SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff) + StDeltaPDueToCompressibility
MudSystem%MudVolume_InjectedToBH = 0.d0
END IF
IF (PressBelowFloatValve >= PressAboveFloatValve .AND. KickFlux) THEN
FloatValveOpen = .FALSE.
IF (FloatValveOpen /= FloatValveWasOpen) THEN ! float valve was open and now closed
WRITE (*,*) 'Float valve was open and now closed'
WRITE (*,*) 'PressAboveFloatValve=', PressAboveFloatValve
WRITE (*,*) 'PressBelowFloatValve=', PressBelowFloatValve
END IF
END IF
IF (FloatValveOpen) THEN
MudSystem%MudVolume_InjectedToBH = MAX( 0.d0 , 0.1 * REAL((PressAboveFloatValve - PressBelowFloatValve - AnnDeltaPDueToCompressibility - FloatValveMinOpenPressure) &
/ StDeltaPtoDeltaVCompressibility ) * 1.d0)
MudSystem%MudVolume_InjectedToBH = MIN(MudSystem%MudVolume_InjectedToBH , StCompressedMudVol)
!WRITE (*,*) 'MudVolume_InjectedToBH (No Pump)', MudVolume_InjectedToBH
StCompressedMudVol = StCompressedMudVol - MudSystem%MudVolume_InjectedToBH
StDeltaPDueToCompressibility = StCompressedMudVol / (MudCompressibility * StMudVol)
!WRITE (*,*) 'StDeltaPDueToCompressibility(No Pump)', StDeltaPDueToCompressibility
END IF
IF (NoGasPocket == 0 .AND. WellHeadOpen == .FALSE.) THEN !***********
FlowEl(AnnulusFirstEl : NumbEl)%StartPress = FlowEl(AnnulusFirstEl : NumbEl)%StartPress + AnnDeltaPDueToCompressibility
FlowEl(AnnulusFirstEl : NumbEl)%EndPress = FlowEl(AnnulusFirstEl : NumbEl)%EndPress + AnnDeltaPDueToCompressibility
END IF
IF (FloatValveOpen) THEN
FlowEl(StringLastEl)%EndPress = MAX(FlowEl(AnnulusFirstEl)%StartPress , SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff) + 0.052 * FlowEl(StringFirstEl)%Density * FlowEl(StringFirstEl)%StartTVD)
ELSE
FlowEl(StringLastEl)%EndPress = StDeltaPDueToCompressibility + SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff)
END IF
FlowEl(StringLastEl)%StartPress = FlowEl(StringLastEl)%EndPress - FlowEl(StringLastEl)%StaticPressDiff
DO i = StringLastEl - 1 , StringFirstEl , -1
FlowEl(i)%EndPress = FlowEl(i + 1)%StartPress
FlowEl(i)%StartPress = FlowEl(i)%EndPress + FlowEl(i)%FricPressLoss - FlowEl(i)%StaticPressDiff
!WRITE(*,*) "STRING: Start , End Pressure", FlowEl(i)%StartPress , FlowEl(i)%EndPress
!WRITE(*,*) "STRING: Start , End X", FlowEl(i)%StartX , FlowEl(i)%EndX
END DO
!FlowEl(NoHorizontalEl)%EndPress = FlowEl(StringFirstEl)%StartPress - FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD
!WRITE (*,*) '- FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD2=', - FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD
!FlowEl(NoHorizontalEl)%StartPress = FlowEl(NoHorizontalEl)%EndPress + FlowEl(StringLastEl)%FricPressLoss
!DO i = NoHorizontalEl - 1 , 1 , -1
! FlowEl(i)%EndPress = FlowEl(i + 1)%StartPress
! FlowEl(i)%StartPress = FlowEl(i)%EndPress + FlowEl(i)%FricPressLoss
! !WRITE(*,*) "HORIZONTAL: Start , End Pressure", FlowEl(i)%StartPress , FlowEl(i)%EndPress
! !WRITE(*,*) "HORIZONTAL: Start , End X", FlowEl(i)%StartX , FlowEl(i)%EndX
!END DO
!WRITE (*,*) ' StCompressedMudVol, StDeltaPDueToCompressibility',StCompressedMudVol, StDeltaPDueToCompressibility
!WRITE (*,*) ' AnnCompressedMudVol, AnnDeltaPDueToCompressibility',AnnCompressedMudVol, AnnDeltaPDueToCompressibility
!!!!!!!!!!!!!!!!!!!!!!!!!!!! Float valve was open (close) and maybe remains open (close) or maybe closed
ELSE IF(FloatValveWasOpen == .FALSE. .AND. REAL(MudSystem%St_Saved_MudDischarged_Volume_Final) >= PumpMinDischargedVol) THEN
FloatValveOpen = .FALSE.
MudSystem%MudVolume_InjectedToBH = 0.d0
StCompressedMudVol = StCompressedMudVol + REAL(MudSystem%St_Saved_MudDischarged_Volume_Final)
StDeltaPDueToCompressibility = StCompressedMudVol * StDeltaPtoDeltaVCompressibility
PressAboveFloatValve = SUM(FlowEl(StringFirstEl : StringLastEl)%StaticPressDiff) + StDeltaPDueToCompressibility

IF (PressAboveFloatValve > FloatValveBottomToUpAreaRatio * PressBelowFloatValve) THEN ! float valve was open and now closed
FloatValveOpen = .TRUE.
WRITE (*,*) 'Float valve was closed and now opened'
WRITE (*,*) 'PressAboveFloatValve=', PressAboveFloatValve
WRITE (*,*) 'PressBelowFloatValve=', PressBelowFloatValve
END IF
FlowEl(StringLastEl)%EndPress = PressAboveFloatValve
FlowEl(StringLastEl)%StartPress = FlowEl(StringLastEl)%EndPress - FlowEl(StringLastEl)%StaticPressDiff
DO i = StringLastEl - 1 , StringFirstEl , -1
FlowEl(i)%EndPress = FlowEl(i + 1)%StartPress
FlowEl(i)%StartPress = FlowEl(i)%EndPress - FlowEl(i)%StaticPressDiff
!WRITE(*,*) "STRING: Start , End Pressure", FlowEl(i)%StartPress , FlowEl(i)%EndPress
!WRITE(*,*) "STRING: Start , End X", FlowEl(i)%StartX , FlowEl(i)%EndX
END DO
END IF
IF ((MudSystem%UtubePossibility == .TRUE. .AND. Get_KellyConnection() /= KELLY_CONNECTION_STRING) .OR. MudSystem%NewPipeFilling == 0) THEN
FlowEl(NoHorizontalEl)%EndPress = 0.0
ELSE IF (WellHeadOpen == .FALSE.) THEN
FlowEl(NoHorizontalEl)%EndPress = FlowEl(StringFirstEl)%StartPress - 0.052 * FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD
!WRITE (*,*) 'Density , StartX= , StartPress', FlowEl(NoHorizontalEl)%Density , FlowEl(StringFirstEl)%StartTVD
ELSE IF (WellHeadOpen) THEN
FlowEl(NoHorizontalEl)%EndPress = FlowEl(StringFirstEl)%StartPress - 2.0 * 0.052 * FlowEl(NoHorizontalEl)%Density * FlowEl(StringFirstEl)%StartTVD
END IF
FlowEl(NoHorizontalEl)%StartPress = FlowEl(NoHorizontalEl)%EndPress + FlowEl(NoHorizontalEl)%FricPressLoss
DO i = NoHorizontalEl - 1 , 1 , -1
FlowEl(i)%EndPress = FlowEl(i + 1)%StartPress
FlowEl(i)%StartPress = FlowEl(i)%EndPress + FlowEl(i)%FricPressLoss
!WRITE(*,*) "HORIZONTAL: Start , End Pressure", FlowEl(i)%StartPress , FlowEl(i)%EndPress
!WRITE(*,*) "HORIZONTAL: Start , End X", FlowEl(i)%StartX , FlowEl(i)%EndX
END DO
!WRITE (*,*) 'MudVolume_InjectedToBH==', MudVolume_InjectedToBH
!WRITE (*,*) 'Ann_Saved_MudDischarged_Volume_Final==', Ann_Saved_MudDischarged_Volume_Final
!!!!!!!!!!!!!!!!!!!!! Pressure distribution in string and horizontal pump to string line
IF (RamLine%ShearBop_Situation_forTD == 1) THEN
FlowEl(1 : NoHorizontalEl)%EndPress = 0.0
FlowEl(1 : NoHorizontalEl)%StartPress = 0.0
FlowEl(1 : NoHorizontalEl)%FricPressLoss = 0.0
END IF
!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!IF (NoGasPocket == 0 .AND. WellHeadOpen) THEN
! FlowEl(1 : NoHorizontalEl + NoStringEl)%EndPress = FlowEl(1 : NoHorizontalEl + NoStringEl)%EndPress + StDeltaPDueToCompressibility + AnnDeltaPDueToCompressibility
! FlowEl(1 : NoHorizontalEl + NoStringEl)%StartPress = FlowEl(1 : NoHorizontalEl + NoStringEl)%StartPress + StDeltaPDueToCompressibility + AnnDeltaPDueToCompressibility
! FlowEl(NoHorizontalEl + NoStringEl +1 : NumbEl)%EndPress = FlowEl(NoHorizontalEl + NoStringEl +1 : NumbEl)%EndPress + AnnDeltaPDueToCompressibility
! FlowEl(NoHorizontalEl + NoStringEl + 1 : NumbEl)%StartPress = FlowEl(NoHorizontalEl + NoStringEl + 1 : NumbEl)%StartPress + AnnDeltaPDueToCompressibility
!ELSE
!IF (NoGasPocket == 0 .AND. WellHeadOpen == .FALSE.) THEN
! FlowEl(1 : StringLastEl)%EndPress = FlowEl(1 : StringLastEl)%EndPress + StDeltaPDueToCompressibility + 30.0 ! badan eslah shavad
! FlowEl(1 : StringLastEl)%StartPress = FlowEl(1 : NoHorizontalEl + NoStringEl)%StartPress + StDeltaPDueToCompressibility + 30.0
! FlowEl(AnnulusFirstEl : NumbEl)%EndPress = FlowEl(AnnulusFirstEl : NumbEl)%EndPress + AnnDeltaPDueToCompressibility
! FlowEl(AnnulusFirstEl : NumbEl)%StartPress = FlowEl(AnnulusFirstEl : NumbEl)%StartPress + AnnDeltaPDueToCompressibility
!END IF

IF (MudSystem%UtubePossibility== .true. .and. Get_KellyConnection() /= KELLY_CONNECTION_STRING .and. WellHeadOpen) THEN
MudSystem%MudVolume_InjectedToBH = 0.d0
MudSystem%MudVolume_InjectedFromAnn = 0.d0
!ELSE
!
! IF (FloatValveOpen .AND. WellHeadOpen .AND. NoGasPocket == 0) THEN
! MudVolume_InjectedToBH = MAX( 0.d0 , REAL((StDeltaPDueToCompressibility - FloatValveMinOpenPressure) / StDeltaPtoDeltaVCompressibility) * 1.d0)
! !MudSystem%MudVolume_InjectedFromAnn = Ann_Saved_MudDischarged_Volume_Final !REAL((AnnDeltaPDueToCompressibility - BackPressure) / AnnDeltaPtoDeltaVCompressibility) * 1.d0
! !WRITE (*,*) 'Pressure above/under bit', FlowEl(NoHorizontalEl + NoStringEl)%EndPress, FlowEl(1 + NoHorizontalEl + NoStringEl)%StartPress
! IF (MudVolume_InjectedToBH <= 0) MudVolume_InjectedToBH = 0.d0
! !IF (MudSystem%MudVolume_InjectedFromAnn <= 0) MudSystem%MudVolume_InjectedFromAnn = 0.d0
! ELSE IF (FloatValveOpen .AND. WellHeadOpen == .FALSE. .AND. NoGasPocket == 0) THEN
! MudVolume_InjectedToBH = MAX( 0.d0 , REAL((PressAboveFloatValve + StDeltaPDueToCompressibility - AnnDeltaPDueToCompressibility - PressBelowFloatValve - FloatValveMinOpenPressure) &
! / (StDeltaPtoDeltaVCompressibility - AnnDeltaPtoDeltaVCompressibility)) * 1.d0)
! MudSystem%MudVolume_InjectedFromAnn = 0.d0
! ELSE IF (FloatValveOpen .AND. WellHeadOpen .AND. NoGasPocket > 0) THEN
! MudVolume_InjectedToBH = MAX( 0.d0 , REAL((PressAboveFloatValve + StDeltaPDueToCompressibility - PressBelowFloatValve - FloatValveMinOpenPressure) / StDeltaPtoDeltaVCompressibility) * 1.d0)
! ! MudSystem%MudVolume_InjectedFromAnn = REAL(Ann_Saved_MudDischarged_Volume_Final) * 1.d0
! ELSE IF (FloatValveOpen .AND. WellHeadOpen == .FALSE. .AND. NoGasPocket > 0) THEN
! MudVolume_InjectedToBH = MAX( 0.d0 , REAL((PressAboveFloatValve + StDeltaPDueToCompressibility - AnnDeltaPDueToCompressibility - PressBelowFloatValve - FloatValveMinOpenPressure) &
! / (StDeltaPtoDeltaVCompressibility - AnnDeltaPtoDeltaVCompressibility)) * 1.d0)
! MudSystem%MudVolume_InjectedFromAnn = 0.d0
! END IF
!StCompressedMudVol = MAX(StCompressedMudVol - REAL(MudVolume_InjectedToBH) , 0.0)
!AnnCompressedMudVol = MAX(AnnCompressedMudVol - REAL(MudSystem%MudVolume_InjectedFromAnn) , 0.0)
!StDeltaPDueToCompressibility = StCompressedMudVol / (MudCompressibility * StMudVol)
!AnnDeltaPDueToCompressibility = AnnCompressedMudVol / (MudCompressibility * AnnMudVol)
END IF
!MudVolume_InjectedToBH = 0.0
!MudVolume_InjectedToBH = St_Saved_MudDischarged_Volume_Final
!WRITE (*,*) 'CompMudVol, DeltaP, MudVolumeInjected'
!WRITE (*,*) StCompressedMudVol, StDeltaPDueToCompressibility, REAL(MudVolume_InjectedToBH)
!WRITE (*,*) AnnCompressedMudVol, AnnDeltaPDueToCompressibility, REAL(MudSystem%MudVolume_InjectedFromAnn)
!WRITE (*,*) 'Press above/Below Float valve ', FlowEl(NoHorizontalEl + NoStringEl)%EndPress , FlowEl(NoHorizontalEl + NoStringEl + 1)%StartPress
!write(*,*) 'MudSystem%MudVolume_InjectedFromAnn***=' , MudSystem%MudVolume_InjectedFromAnn, Ann_Saved_MudDischarged_Volume_Final
110 FORMAT (I6 , 4X , F6.2 , 7X , F4.2 , 3X , F4.1 , 2X , F4.2)
!DO i = NumbEl , NumbEl - NoOpenHoleEl + 1 , -1 ! op elements
! WRITE (*,*) 'el no, start, end' , i, FlowEl(i)%StartPress, FlowEl(i)%EndPress
!END DO
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!! Kick Information Reports
!!!!!!!!!!!!!!!!! 1- Stand pipe pressure gauge PressureGauges(1)
!ElementTrueDepth = STpipeGauge_Height/Convfttom
!DistancetoRefrence = -170.7 ! 165 ft after pump and 100 ft before string
i = 1
DO WHILE (NOT(FlowEl(i)%EndX >= -170 .AND. FlowEl(i)%StartX <= -170))
i = i + 1
IF (i > NoHorizontalEl) EXIT
END DO
CALL PumpPressureDelay%AddToFirst(REAL(FlowEl(i)%StartPress - 0.052 * (MudSystem%STpipeGauge_Height / Convfttom) * FlowEl(i)%Density + (FlowEl(i)%StartX + 170) * FlowEl(i)%dPdLFric))
CALL PumpPressureDelay%Remove(PressureTimeStepDelay(1) + 1)
!IF (ANY(PUMP(:)%PowerFailMalf == 1)) PumpPressureDelay%Array(1 : PressureTimeStepDelay(1) / 2) = 0.0 !seyyed goft vaghti pumpfailure mishavad feshar dasti 0 nashavad, be in dalil in khat comment shod.
DO j = PressureTimeStepDelay(1) , 1 , -1
IF (NOT(IEEE_IS_NaN(PumpPressureDelay%Array(j)))) THEN
PressureGauges(1) = INT(PumpPressureDelay%Array(j))
EXIT
END IF
END DO
!PressureGauges(1) = INT(PumpPressureDelay%Array(PressureTimeStepDelay(1)))
IF (i > NoHorizontalEl) THEN
WRITE (*,*) ' Error in calculating standpipe pressure '
END IF
IF (PressureGauges(1) < 0) THEN
!CALL Set_StandPipePressure(real(PressureGauges(1) , 8)) ! for display console
PressureGauges(1) = 0.0
!CALL Set_StandPipePressure(0.0d0) !StandPipePressureGauge = 0
END IF
DownHole%DrillPipePressure = real(PressureGauges(1), 8)
!WRITE (*,*) 'Drillpipe Pressure', PressureGauges(1)
!!!!!!!!!!!!!!!!! 2- Casing pressure gauge PressureGauge(2)
!WRITE (*,*) 'here 1', (WelltoPitsOpen == .FALSE. .AND. WellToChokeManifoldOpen) , (Valve(26)%Status == .TRUE. .AND. Valve(47)%Status == .TRUE. .AND. Valve(49)%Status == .TRUE.), BackPressure
!WRITE (*,*) Valve(26)%Status , Valve(47)%Status , Valve(49)%Status
!WRITE (*,*) (Valve(26)%Status == .TRUE.) , (Valve(47)%Status == .TRUE.) , (Valve(49)%Status == .TRUE.)
!!! in normal mode changes in choke position immidiately observes in casing pressure
!! but when pumps off due to failure, casing pressure will drop after a delay time
IF (MudSystem%WellToChokeManifoldOpen .OR. MudSystem%WellToChokeLineGauge) THEN
!WRITE (*,*) 'Here 1'
CALL CasingPressureDelay%AddToFirst(FlowEl(NoHorizontalEl + NoStringEl + NoAnnulusEl + NoWellToChokeEl)%EndPress)
CALL CasingPressureDelay%Remove(PressureTimeStepDelay(1) + 1)
DO j = 1 , PressureTimeStepDelay(1)
IF (NOT(IEEE_IS_NaN(CasingPressureDelay%Array(j)))) THEN
PressureGauges(2) = INT(CasingPressureDelay%Array(j))
EXIT
END IF
END DO
!PressureGauges(2) = INT(CasingPressureDelay%Array(1))
IF (ANY(PUMP(:)%PowerFailMalf == 1)) THEN
DO j = PressureTimeStepDelay(1) , 1 , -1
IF (NOT(IEEE_IS_NaN(CasingPressureDelay%Array(j)))) THEN
PressureGauges(2) = INT(CasingPressureDelay%Array(j))
EXIT
END IF
END DO
END IF
!IF (ANY(PUMP(:)%PowerFailMalf == 1)) PressureGauges(2) = INT(CasingPressureDelay%Array(PressureTimeStepDelay(1)))
ELSE !IF (ChokeLineGaugeToTanks) THEN
PressureGauges(2) = 0
!WRITE (*,*) 'Here 2'
END IF

!WRITE (*,*) 'GaugePoint(2)%Pressure =' , GaugePoint(2)%Pressure
!IF (PressureGauges(2) < 0) THEN
! PressureGauges(2) = 0.0
!END IF
CALL Set_CasingPressure(real(PressureGauges(2) , 8)) ! for display console
Downhole%CasingPressure = real(PressureGauges(2) , 8)
!IF (PressureGauges(2) > 3000.0) THEN
! !CALL Error(' High Casing Pressure')
!END IF
!WRITE (*,*) 'Casing Pressure=' , PressureGauges(2)

!!!!!!!!!!!!!!!!! 3- Bottom Hole Pressure PressureGauge(3)
CALL BottomHolePressureDelay%AddToFirst(FlowEl(OpenholeFirstEl)%StartPress)
CALL BottomHolePressureDelay%Remove(PressureTimeStepDelay(2) + 1)
!PressureGauges(3) = INT(BottomHolePressureDelay%Array(PressureTimeStepDelay(2)))

DO j = PressureTimeStepDelay(2) , 1 , -1
IF (NOT(IEEE_IS_NaN(BottomHolePressureDelay%Array(j)))) THEN
PressureGauges(3) = INT(BottomHolePressureDelay%Array(j))
EXIT
END IF
END DO
BottomHolePress = BottomHolePressureDelay%Array(PressureTimeStepDelay(2))
DownHole%BottomHolePressure = REAL(PressureGauges(3) , 8)
!!!!!!!!!!!!!!!!! 4- Under Bit Pressure PressureGauges(4)
PressureGauges(4) = FlowEl(AnnulusFirstEl)%StartPress
!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!! 5- Casing Shoe Pressure PressureGauges(5)
!IF (ShoeDepth <= FlowEl(NoHorizontalEl + NoStringEl + 1)%StartX) THEN
DO ShoeFlowElNo = AnnulusFirstEl , NumbEl
IF (FlowEl(ShoeFlowElNo)%StartX >= Shoe%ShoeDepth .AND. FlowEl(ShoeFlowElNo)%EndX < Shoe%ShoeDepth) EXIT
END DO
CALL TVD_Calculator(Shoe%ShoeDepth , ShoeTVD)
IF (ShoeFlowElNo > NumbEl) THEN
WRITE (*,*) 'ShoeDepth =', Shoe%ShoeDepth
DO i = AnnulusFirstEl , NumbEl
WRITE (*,*) 'i, StartX, EndX', i, FlowEl(i)%StartX, FlowEl(i)%EndX
END DO
CALL ErrorSTOP ('Error in finding location of shoe')
END IF
!ELSE
! WRITE (*,*) ' Error in calculating shoe pressure '
!END IF
CALL ShoePressureDelay%AddToFirst(REAL(FlowEl(ShoeFlowElNo)%StartPress &
- (FlowEl(ShoeFlowElNo)%StartX - Shoe%ShoeDepth) * FlowEl(ShoeFlowElNo)%dPdLfric &
- (FlowEl(ShoeFlowElNo)%StartTVD - ShoeTVD) * FlowEl(ShoeFlowElNo)%dPdLGrav))
CALL ShoePressureDelay%Remove(PressureTimeStepDelay(3) + 1)
!FlowrateNearShoe = FlowEl(ShoeFlowElNo)%FlowRate
DO j = PressureTimeStepDelay(3) , 1 , -1
IF (NOT(IEEE_IS_NaN(ShoePressureDelay%Array(j)))) THEN
PressureGauges(5) = INT(ShoePressureDelay%Array(j))
EXIT
END IF
END DO
!PressureGauges(5) = INT(ShoePressureDelay%Array(PressureTimeStepDelay(3)))
DownHole%ShoePressure = real(PressureGauges(5), 8)
!IF (PressureGauges(5) >= FormationLostPressure) WRITE (*,*) 'Near Shoe Flowrate', FlowEl(ShoeFlowElNo)%FlowRate
MudSystem%ShoeMudViscosity = FlowEl(ShoeFlowElNo)%MuEff
MudSystem%ShoeMudDensity = FlowEl(ShoeFlowElNo)%Density
!WRITE (*,*) 'Drillstring speed (ft/s)' , DrillStringSpeed
!WRITE (*,*) 'shoe mud speed ', FlowEl(ShoeFlowElNo - 1)%vel
!WRITE (*,*) 'Shoe pressure (psi)', ShoePressureDelay%Array(1)
!!!!!!!!!!!!!!!!!
!!!!!!!!! 6- Pressure Before Bop
PressureGauges(6) = FlowEl(NoHorizontalEl + NoStringEl + NoAnnulusEl)%EndPress
!!!!!!!!!!!!!!!!!
101 FORMAT(4X, I2, 8X, (F8.1), 12X, (F8.3), 7X, (F8.2))
!WRITE (*,*) ' Pump Pressure Delay', PumpPressureDelay%Array(1)
!WRITE (*,*) ' Bottom Hole Pressure Delay', BottomHolePressureDelay%Array(1)
!WRITE (*,*) ' Shoe Pressure Delay', ShoePressureDelay%Array(1)
!IF (ALLOCATED(GasPocketWeight%Array) .AND. ChokeKroneckerDelta == 1) THEN
!WRITE (*,*) 'Pocket No , Gas Pocket (psia) , Volume (gal) , Flow Induced (gpm) '
!DO i = 1 , NoGasPocket
! WRITE (*,101) i, GasPocketNewPress%Array(i), GasPocketNewVol%Array(i) * ConvFt3toUSGal, GasPocketFlowInduced%Array(i)
!END DO
! WRITE (*,*) 'Kchoke =', Kchoke, FlowEl(OpenholeFirstEl - 1)%FlowRate
!DO i = 1 , NoGasPocket
! WRITE (*,*) 'Gas Kick Vol (gal)=' , GasPocketNewVol%Array(i) * ConvFt3toUSGal , GasPocketDeltaVol%Array(i) * ConvFt3toUSGal , GasPocketNewPress%Array(i)
!END DO
!WRITE (*,*) 'BHP (psig)=', BottomHolePress
IF (ChokeKroneckerDelta == 1) THEN
!WRITE (*,*) 'Casing Pressure' , PressureGauges(2)
!WRITE (*,*) 'Below Bit' , FlowEl(AnnulusFirstEl)%StartPress
!WRITE (*,*) 'Above Bit' , FlowEl(StringLastEl)%EndPress
!WRITE (*,*) 'Pump Pressure' , PressureGauges(1)
!WRITE (*,*) ' Kick Iteration', KickIteration
!WRITE (*,*) ' Kchoke, Q =', Kchoke, FlowEl(j)%Flowrate !, REAL((DeltaVolumePipe * ConvMinToSec / dt) + MudSystem%StringFlowRate)
!DO l = NoHorizontalEl + NoStringEl + 1 , NumbEl
! WRITE (*,*) 'El No, Fric Press Loss, density , Q', l, FlowEl(l)%FricPressLoss, FlowEl(l)%StaticPressDiff, FlowEl(l)%Density, FlowEl(l)%Flowrate
!END DO
!write(*,*) 'BackPressure=' , BackPressure
!WRITE (*,*) ' Kick Jacobian ', REAL(KickJacobian)
!WRITE (*,*) ' KickVandPFunction = ' , REAL(-KickVandPFunction)
!WRITE (*,*) ' Kick Unknown Vector = ' , REAL(KickUnknownVector)
!WRITE (*,*) 'SUM(StaticPressDiff) , SUM(FricPressLoss)', SUM(FlowEl(GasPocketElementNo(1) : i)%FricPressLoss) , SUM(FlowEl(GasPocketElementNo(1) : i)%StaticPressDiff)
!WRITE (*,*) 'Drillpipe, casing pressure', PressureGauges(1), PressureGauges(2)
END IF
!IF (NoWelltoChokeEl > 0 .AND. FlowEl(OpenholeFirstEl - 1)%MaterialType == 1 .AND. WellHeadOpen) THEN ! kick is last element in choke line and does not exit.
! KickWasExitingThroughChoke = .TRUE.
! GasPocketDensity%Array(NoGasPocket) = (GasPocketweight%Array(NoGasPocket) / GasPocketModifiedVol%Array(NoGasPocket)) / convft3toUSgal ! [lbm/ft^3 to ppg]
! ExitMass = (1.0 - (GasPocketModifiedVol%Array(NoGasPocket) / GasPocketNewVol%Array(NoGasPocket))) * GasPocketWeight%Array(NoGasPocket) ! exit mass due to expand
! WRITE (*,*) ' ExitMass due to expand = ', GasPocketModifiedVol%Array(NoGasPocket) * Convft3ToUSgal , ExitMass
!END IF
!WRITE (*,*) 'Horiz 1'
KickInFluxConditions = (Reservoir%FormationTop < TD_WellGeneral%WellTotalVerticalLength) .AND. (NOT(Reservoir%InactiveInflux)) .AND. (FormPressure > BottomHolePress + 5.0)
IF (KickInFluxConditions) THEN
KickFlux = .TRUE.

CALL NewGasKick
!WRITE (*,*) 'Kick Flux top' , KickFlux
!WRITE (*,*) 'FormPressure, BottomHolePress, FormationTop, TD_WellGeneral%WellTotalVerticalLength' , FormPressure, BottomHolePress, FormationTop, TD_WellGeneral%WellTotalVerticalLength
ELSE
IF (ALLOCATED(GasPocketWeight%Array) .AND. KickFlux) THEN
KickOffBottom = .TRUE.
WRITE (*,*) 'Kick Off Bottom'
WRITE (*,*) 'FormPressure , BottomHolePress' , FormPressure , BottomHolePress
!WRITE (*,*) 'No Press(psia) Vol(gal) Weight(lbm) Flow Induced(gpm) Flow El Press(psia)'
DO i = 1 , NoGasPocket
WRITE (*,102) i , GasPocketNewPress%Array(i), GasPocketNewVol%Array(i) * Convft3toUSgal, GasPocketWeight%Array(i), GasPocketFlowInduced%Array(i), FlowEl(GasPocketFlowEl(i , 1))%StartPress + StandardPress
END DO
END IF
KickFlux = .FALSE.
END IF
IF (ALLOCATED(KickJacobian)) OldKickJacobian = KickJacobian
102 FORMAT (I2, 3X, (F8.1), 2X, (F8.2), 2X, (F8.3), 8X, (F8.2), 10X, (F8.1))
!!!!!!!! Auto Choke Procedure
! DO i = 1 , 5
! AreaChange = -1.0 * (BottomHolePressure - (FormPressure + BHPSafetyMargin)) / FlowEl(OpenholeFirstEl - 1)%Flowrare**2 * 89158.0 &
! * (0.26 * 0.61)**2 * TotalOpenChokeArea**3 / (4.0 * ChokeDensity)
! CHOOKE(1)%AreaChokeFinal = CHOOKE(1)%AreaChokeFinal + AreaChange / * Convfttoinch**2
!
!
!
! END DO
!
!
!
!
!
!WRITE (*,*) ' SecondaryKickWeight', SecondaryKickWeight
!WRITE (*,*) ' SecondaryKickVol', SecondaryKickVol
DownHole%SecondKickVolume = SecondaryKickVol
IF (WellHeadOpen == .FALSE. .OR. (FlowEl(OpenholeFirstEl - 1)%Flowrate < PressFlowrateTolerance .AND. FlowEl(AnnulusLastEl)%Flowrate < PressFlowrateTolerance)) THEN
OnShakerDensity = 0.0
ELSE IF (FlowEl(OpenholeFirstEl - 1)%MaterialType == 1 .AND. ChokeKroneckerDelta == 1) THEN
OnShakerDensity = 2.0
ELSE IF (ChokeKroneckerDelta == 0) THEN
OnShakerDensity = FlowEl(AnnulusLastEl)%Density
ELSE IF (ChokeKroneckerDelta == 1) THEN !!!(FlowEl(OpenholeFirstEl - 1)%Flowrate > PressFlowrateTolerance .AND. FlowEl(AnnulusLastEl)%Flowrate < PressFlowrateTolerance) THEN
OnShakerDensity = FlowEl(OpenholeFirstEl - 1)%Density
ELSE
OnShakerDensity = (FlowEl(OpenholeFirstEl - 1)%Density * FlowEl(OpenholeFirstEl - 1)%Flowrate &
+ FlowEl(AnnulusLastEl)%Density * FlowEl(AnnulusLastEl)%Flowrate) / (FlowEl(OpenholeFirstEl - 1)%Flowrate + FlowEl(AnnulusLastEl)%Flowrate)
END IF
!WRITE (*,*) 'ANINT(OnShakerDensity * 100) / 100', ANINT(OnShakerDensity * 100) / 100 , OnShakerDensity
CALL Set_MudWeightOut(ANINT(OnShakerDensity * 100) / 100)

IF (ALLOCATED(FinalFlowEl)) DEALLOCATE(FinalFlowEl)
ALLOCATE(FinalFlowEl(NumbEl))
FinalFlowEl(:)%StartX = FlowEl(:)%StartX
FinalFlowEl(:)%EndX = FlowEl(:)%EndX
FinalFlowEl(:)%StartTVD = FlowEl(:)%StartTVD
FinalFlowEl(:)%EndTVD = FlowEl(:)%EndTVD
FinalFlowEl(:)%Length = FlowEl(:)%Length
FinalFlowEl(:)%DepthDiff = FlowEl(:)%DepthDiff
FinalFlowEl(:)%density = FlowEl(:)%density
FinalFlowEl(:)%StartPress = FlowEl(:)%StartPress
FinalFlowEl(:)%EndPress = FlowEl(:)%EndPress
FinalFlowEl(:)%dPdLFric = FlowEl(:)%dPdLFric
FinalFlowEl(:)%dPdLGrav = FlowEl(:)%dPdLGrav

!WRITE (*,*) 'FlowRate=', FlowEl(AnnulusFirstEl)%FlowRate
!WRITE (*,*) 'Pressure Loss in Drill String', SUM(FlowEl(StringFirstEl : StringLastEl)%FricPressLoss)
!WRITE (*,*) 'Pressure Loss in Annulus', SUM(FlowEl(AnnulusFirstEl : AnnulusLastEl)%FricPressLoss)
!MDObserve(:) = [3000.0 , 4349.0 , 11880.0 , 19880.0 , 21680.0]
!NomMd (:) = [3000 , 4298 , 11690 , 19690 , 21490]
!DO i = 1 , 5
! CALL TVD_Calculator(MDObserve(i) , TVDObserve(i))
!END DO
!
!DO i = 1 , 5
!
! WRITE (*,*) 'MDObserve(i)', INT(NomMD(i))
! WRITE (*,*) 'TVDObserve(i)', INT(TVDObserve(i))
!
! DO j = StringFirstEl , StringLastEl
! IF (INT(MDObserve(i)) < INT(FinalFlowEl(j)%EndX)) EXIT
! END DO
! StPressObserve(i) = FlowEl(j)%StartPress - (MDObserve(i) - FlowEl(j)%StartX) * FlowEl(j)%dPdLfric + (TVDObserve(i) - FlowEl(j)%StartTVD) * FlowEl(j)%dPdLGrav
! WRITE (*,*) 'String Pressure', INT(StPressObserve(i))
!
!
!
! IF (INT(MDObserve(i)) <= INT(FlowEl(AnnulusFirstEl)%StartX)) THEN !! mouse pointer is in the annulus space
! DO j = AnnulusFirstEl , AnnulusLastEl
! IF (INT(FlowEl(j)%EndX) <= INT(MDObserve(i))) EXIT
! END DO
! ELSE IF (INT(MDObserve(i)) > INT(FinalFlowEl(NumbEl)%EndX)) THEN ! mouse pointer is in the open hole space
! DO j = OpenholeFirstEl , NumbEl
! IF (INT(FinalFlowEl(j)%EndX) <= INT(MDObserve(i))) EXIT
! END DO
! END IF
! AnnPressObserve(i) = FlowEl(j)%StartPress - (FlowEl(j)%StartX - MDObserve(i)) * FlowEl(j)%dPdLfric &
! - (FlowEl(j)%StartTVD - TVDObserve(i)) * FlowEl(j)%dPdLGrav
! WRITE (*,*) 'Annulus Pressure', INT(AnnPressObserve(i))
!
!
!END DO

END SUBROUTINE
SUBROUTINE SOLVE_LINEAR_EQUATIONS(A , x , b , error, dim)
!!! This subroutine solves a linear systems of equations Ax=b
!! if vaiable erorr changed its value to .FALSE. means that the system of equations cab not be solved
!! I use this subroutine to solve the linearized equations which uprising in calculation of volume and pressure of gas kick pockets
use KickVARIABLESModule

IMPLICIT NONE
INTEGER , INTENT(IN) :: dim
REAL(8) , DIMENSION(dim,dim) , INTENT(in) :: A
REAL , DIMENSION(dim) , INTENT(OUT) :: x
REAL(8) , DIMENSION(dim) , INTENT(in) :: b
LOGICAL , INTENT(OUT) :: error
REAL(8) , DIMENSION(:,:) , ALLOCATABLE :: m
INTEGER , DIMENSION(1) :: max_loc
REAL(8) , DIMENSION(:) , ALLOCATABLE :: temp_row
INTEGER :: n , k
!WRITE (*,*) 'SIZE(A , dim = 1), SIZE(A , dim = 2), SIZE(b)', SIZE(A , dim = 1), SIZE(A , dim = 2), SIZE(b)
error = (SIZE(A , dim = 1) /= SIZE(b)) .OR. (SIZE(A , dim = 2) /= SIZE(b))
!WRITE (*,*) 'SOLVE_LINEAR_EQUATIONS 1' , error
IF (error) THEN
x = 0.0d0
RETURN
END IF
n = SIZE(b)
ALLOCATE (m(n , n + 1) , temp_row(n + 1))
m(1:n , 1:n) = A
m(1:n , n + 1) = b
!WRITE (*,*) 'SOLVE_LINEAR_EQUATIONS 2' , m
! Triangularization phase
TRIANG_LOOP: DO k = 1 , n
max_loc = MAXLOC(ABS(m(k:n , k)))
temp_row(k:n + 1) = m(k , k:n + 1)
m(k , k:n+1) = m(k-1+max_loc(1) , k:n+1)
m(k - 1 + max_loc(1) , k:n + 1) = temp_row(k:n + 1)
!WRITE (*,*) 'SOLVE_LINEAR_EQUATIONS 3' , max_loc
IF (m(k , k) == 0) THEN
error = .TRUE.
!WRITE (*,*) 'SOLVE_LINEAR_EQUATIONS 4'
EXIT TRIANG_LOOP
ELSE
!WRITE (*,*) 'SOLVE_LINEAR_EQUATIONS 5'
m(k , k : n + 1) = m(k , k : n + 1) / m(k , k)
m(k + 1 : n , k + 1 : n + 1) = m(k + 1 : n , k + 1 : n + 1) - SPREAD(m(k , k + 1:n + 1) , 1, n - k) * SPREAD(m(k + 1:n , k) , 2 , n - k + 1)
END IF
END DO TRIANG_LOOP
!WRITE (*,*) 'SOLVE_LINEAR_EQUATIONS 6'
! Back substitution phase
IF (error) THEN
x = 0.0
ELSE
DO k = n , 1 , -1
x(k) = REAL(m(k , n + 1) - SUM(m(k , k + 1 : n) * x(k + 1 : n)))
!WRITE (*,*) 'SOLVE_LINEAR_EQUATIONS 7'
END DO
END IF
DEALLOCATE(m , temp_row)
END SUBROUTINE solve_linear_equations

+ 32
- 0
FluidFlow-old/Pressure_Display_VARIABLES.f90 Целия файл

@@ -0,0 +1,32 @@
MODULE PressureDisplayVARIABLES
USE DynamicRealArray
IMPLICIT NONE


INTEGER :: NoGauges
REAL , DIMENSION(6) :: PressureGauges
INTEGER :: SoundSpeed ! speed of sound [ft/s]
INTEGER , DIMENSION(3) :: PressureTimeStepDelay
TYPE(DynamicRealArrayType) :: PumpPressureDelay
TYPE(DynamicRealArrayType) :: CasingPressureDelay
TYPE(DynamicRealArrayType) :: BottomHolePressureDelay
TYPE(DynamicRealArrayType) :: ShoePressureDelay

TYPE :: ObservationAndGaugePointsInformations ! We have some gauges and may be have many observation points like casing shoe, bottomhole , etc.
! This module stores information of these points to calculate pressure, density and other desired properties
! at these points
! Locations: 1: Stand Pipe , 2: Choke Manifold, 3: Botton Hole, 4: Under Bit, 5: Shoe, 6: Before BOP
INTEGER :: ElementNo ! Element Nubmer based on mud elements
REAL :: DistancetoRefrence ! Distance from pump or the end of fluid path [ft]
REAL :: ElementTrueDepth ! True depth of point or gauge [ft]
REAL :: Pressure ! Pressure [psi]
END TYPE
!TYPE(ObservationAndGaugePointsInformations) , ALLOCATABLE :: GaugePoint(:)
TYPE(ObservationAndGaugePointsInformations) , ALLOCATABLE :: ObservationPoint(:)
END MODULE

+ 178
- 0
FluidFlow-old/Pressure_Distribution_VARIABLES.f90 Целия файл

@@ -0,0 +1,178 @@
MODULE FricPressDropVars
!! Record of revisions
!! Date Programmer Discription of change
!! ------ ------------ -----------------------
!! 1396/07/26 Sheikh Original code
!!
IMPLICIT NONE

REAL :: TotFricPressLoss ! Total Frictional Pressure Loss [psi]
REAL :: FlowrateNearShoe
INTEGER :: NoHorizontalEl ! number of elements in horizontal pump to string line
INTEGER :: NoStringEl ! number of elements in string
INTEGER :: NoAnnulusEl ! number of elements in annulus space
INTEGER :: NoWellToChokeEl ! number of elements in well head to choke manifold
INTEGER :: NoOpenHoleEl ! number of elements in openhole
INTEGER :: NumbEl ! number of flow elements in horizontal line, string, annulus and openhole
INTEGER :: StringFirstEl ! number of first string element
INTEGER :: StringLastEl ! number of last string element
INTEGER :: AnnulusFirstEl ! number of first annulus element
INTEGER :: AnnulusLastEl ! number of last annulus element
INTEGER :: ChokeFirstEl ! number of first choke element
INTEGER :: ChokeLastEl ! number of last choke element
INTEGER :: OpenholeFirstEl ! number of first openhole element
INTEGER :: ShoeFlowElNo ! the flow element that starts from shoe, in other word the number of upper element adjacent to shoe
REAL :: KBOP ! DeltaPBOP = KBOP * Q**2 [psi * min^2 / gal^2]
REAL :: KBit ! DeltaPBit = KBit * Q**2 [psi * min^2 / gal^2]
!!!! Choke Variables
REAL :: BackPressure , NewBackPressure ! back pressure at riser or choke line [psi]
REAL :: Kchoke ! DeltaPchoke = Kchoke * Q**2 [psi * min^2 / gal^2]
REAL :: TotalOpenChokeArea , OldTotalOpenChokeArea , ChokeBypassArea , NewTotalOpenChokeArea , AreaChange
REAL :: BHPSafetyMargin , AChBHPTol ! BHP safety margin and BHP Tolerance in Auto Choke mode [psi]
REAL(8) :: OnShakerDensity ! Outlet Density of well for displaying in drillwatch and data [ppg]
LOGICAL :: FloatValveIn
LOGICAL :: FloatValveOpen , FloatValveWasOpen
LOGICAL :: BitTotallyPluged
REAL :: ClingingFactor = 0.45 ! in calculating surge and swab pressure changes
REAL :: MudCompressibility = 2.7E-6 ! Volumne change relative to Volume/1psi, for example for change of 1000 psi in pressure, volume changes 0.27% [1/psi]
REAL :: FloatValveMinOpenPressure = 1.0 ! minimum pressure that opens the float valve [psi]
REAL :: StMudVol ! Total mud volume of Horizontal and String that may be compressed [gal]
REAL :: AnnMudVol ! Total mud volume of Bottom hole, Annulus and Choke line that may be compressed [gal]
REAL :: PumpToManifoldMudVol
REAL :: StCompressedMudVol ! Compressed mud volume in Horizontal and String [gal]
REAL :: AnnCompressedMudVol ! Compressed mud volume in Bottom hole, Annulus and Choke line [gal]
REAL :: PumpToManifoldCompressedMudVol
REAL :: StDeltaPDueToCompressibility ! Pressure increase due to mud compressibility in Horizontal and String [psi]
REAL :: AnnDeltaPDueToCompressibility ! Pressure increase due to mud compressibility in Bottom hole, Annulus and Choke line [psi] (usually when wellhead is closed)
REAL :: PumpToManifoldDeltaPDueToCompressibility
REAL :: StDeltaPtoDeltaVCompressibility ! string pressure change due to compressibility [psi/gal]
REAL :: AnnDeltaPtoDeltaVCompressibility ! annulus and openhole pressure change due to compressibility [psi/gal]
!!!! Problem Variables (Choke and Bit)
INTEGER :: ManChoke1Plug , ManChoke2Plug ! = 1 if choke is plugged , = 0 else
INTEGER :: ManChoke1Washout , ManChoke2Washout ! = 1 if choke is washed out , = 0 else
INTEGER :: BitJetsPlugged , BitJetsWashedOut
INTEGER :: CasingPressure_DataDisplayMalF, CasingPressure_ChokeMalF

!!!!!! Note that bit is not an element in these calculations
TYPE, PUBLIC :: PressDropCalcElemInfo
!! Geometrical variables
REAL(8) :: Length ! Length of a Flow element [ft]
REAL(8) :: DepthDiff ! Difference between depth of start and end of element [ft]
REAL(8) :: StartX , EndX ! start and end point (measured depth) of flow element [ft]
REAL(8) :: StartTVD , EndTVD ! Start and End point True Vertical Depth of flow element [ft]
REAL :: Od , Id , Dhyd ! Outer, Inner and hydraulic diameter of flow element [in]
REAL :: Area ! area of element [ft^2]
INTEGER :: alpha ! geometry factor: 0 = pipe (ID=0) , 1 = annulus
INTEGER :: FrictionDirection ! = 1 if flowrate is positive, so frictional pressure gradient is in direction of preassumed
! flowrate, = -1 if not above condition usually in Swab conditions
!! Flow variables
INTEGER :: MaterialType ! = 0 for mud , = 2 for gas
REAL :: volume , vel , density , FlowRate ! volume [ft^3], velocity [ft/s], density of fluid flow [ppg], flow rate [gpm]
REAL :: Gf ! geometry shear rate correction [-]
!! Rheological and frictional variables
REAL :: Theta600 , Theta300 ! Fann data at 600 and 300 rpm as rheological data
! REAL(8) :: VelCritBing , VelCritPow ! critical velocity in Bingham Plastic and Power law model [ft/min]
REAL :: muPlastic , YieldP ! plastic viscosity [cp] and yield point [lbf/(100*ft^2)]
REAL :: mueff ! Effective or apparent viscosity which is used in calculation of generalized Reynolds number
REAL :: nIndex , kIndex ! n: flow behaivior index [-] and k: consistency factor [lbf*s^n/(100*ft^2)]
REAL :: gammaW , tauW ! shear rate at the wall [1/s] and wall shear stress [lbf/(100*ft^2)]
REAL :: GenRe ! generalized Reynolds number in power law model [-]
REAL :: ReCrit = 2100.0 ! Critical Reynolds number for Newtonian model and Bingham plastic model
REAL :: ReCritLam , ReCritTurb ! laminar and turbulent critical Reynolds
REAL :: f ! Fanning friction factor [-]
REAL :: a , b ! parameters for calculationg friction factor in turbulent regime for power law model [-]
LOGICAL :: LaminarRegime ! = .TRUE. if flow regime is laminar and = .FALSE. if flowregime is not
LOGICAL :: TurbulentRegime ! = .TRUE. if flow regime is turbulent and = .FALSE. if flowregime is not
!! Pressure change variables
REAL :: StartPress , EndPress ! Pressure at start and end of an element [psi]
REAL :: dPdLFric ! frictional pressure drop gradient in each element [psi/ft]
REAL :: dPdLGrav ! gravitional pressure gradient = 0.052 * Density [psi/ft]
REAL :: FricPressLoss ! frictional pressure loss in each element [psi]
REAL :: StaticPressDiff ! static pressure difference between top and bottom of a pocket [psi] always positive
REAL :: FricToQPartialDiff ! partial differentiation of friction relative to volume flow rate
END TYPE PressDropCalcElemInfo
TYPE (PressDropCalcElemInfo) , ALLOCATABLE :: FlowEl(:) ! FlowEl: Pressure Drop Calculation Elements The dimension is equal to the number of flow elements
TYPE, PUBLIC :: FinalPressDropCalcElemInfo
!!! for use in calculationg properties of a point in 'downhole view' page
REAL(8) :: StartX , EndX , StartTVD , EndTVD , Length , DepthDiff ! start and end point of flow element [ft]
REAL :: density ! density of fluid flow [ppg], flow rate [gpm]
REAL :: StartPress ! Pressure at start of an element [psi]
REAL :: EndPress ! Pressure at end of an element [psi]
REAL :: dPdLFric ! frictional pressure drop gradient in each element [psi/ft]
REAL :: dPdLGrav ! gravitional pressure gradient = 0.052 * Density [psi/ft]
END TYPE FinalPressDropCalcElemInfo
TYPE (FinalPressDropCalcElemInfo) , ALLOCATABLE :: FinalFlowEl(:) ! FlowEl: Pressure Drop Calculation Elements The dimension is equal to the number of flow elements

END MODULE FricPressDropVars
MODULE UTUBEVARS
REAL :: QUTubeInput ! flow rate from string to annulus which caused by head difference at two sides of U-tube [gpm]
REAL :: QUtubeOutput ! flow rate from annulus to string which caused by head difference at two sides of U-tube [gpm]
REAL :: PressureDp ! pressure at bit or end of drill string from drill string path [psi]
REAL :: PressureAnn ! pressure at bit or end of drill string from annular path [psi]
END MODULE
SUBROUTINE DeallocateFlowTypes
USE FricPressDropVarsModule
use PressureDisplayVARIABLESModule
use KickVARIABLESModule
IMPLICIT NONE
IF (ALLOCATED(FlowEl)) DEALLOCATE(FlowEl)
IF (ALLOCATED(FinalFlowEl)) DEALLOCATE(FinalFlowEl)
IF (ALLOCATED(GasPocketWeight%Array)) CALL GasPocketWeight%Empty()
IF (ALLOCATED(GasPocketNewPress%Array)) CALL GasPocketNewPress%Empty()
IF (ALLOCATED(GasPocketOldPress%Array)) CALL GasPocketOldPress%Empty()
IF (ALLOCATED(GasPocketNewTemp%Array)) CALL GasPocketNewTemp%Empty()
IF (ALLOCATED(GasPocketOldTemp%Array)) CALL GasPocketOldTemp%Empty()
IF (ALLOCATED(GasPocketNewVol%Array)) CALL GasPocketNewVol%Empty()
IF (ALLOCATED(GasPocketOldVol%Array)) CALL GasPocketOldVol%Empty()
IF (ALLOCATED(GasPocketdeltaVol%Array)) CALL GasPocketdeltaVol%Empty()
IF (ALLOCATED(GasPocketModifiedVol%Array)) CALL GasPocketModifiedVol%Empty()
IF (ALLOCATED(GasPocketFlowInduced%Array)) CALL GasPocketFlowInduced%Empty()
IF (ALLOCATED(GasPocketDensity%Array)) CALL GasPocketDensity%Empty()
IF (ALLOCATED(GasPocketCompressibility%Array)) CALL GasPocketCompressibility%Empty()
IF (ALLOCATED(GasPocketFlowEl)) DEALLOCATE(GasPocketFlowEl)
IF (ALLOCATED(KickJacobian)) DEALLOCATE(KickJacobian)
IF (ALLOCATED(OldKickJacobian)) DEALLOCATE(OldKickJacobian)
IF (ALLOCATED(KickVandPFunction)) DEALLOCATE(KickVandPFunction)
IF (ALLOCATED(KickUnknownVector)) DEALLOCATE(KickUnknownVector)
IF (ALLOCATED(KickCorrectionVector)) DEALLOCATE(KickCorrectionVector)
END SUBROUTINE

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