subroutine TD_WellReadData use SimulationVariables !@ use SimulationVariables !@ implicit none Integer :: i data%State%TD_WellGeneral%WellIntervalsCount = data%Configuration%Path%ItemCount + 1 ! +1 is belong to ROP hole if (Allocated(data%State%TD_WellGeo)) deAllocate (data%State%TD_WellGeo) Allocate (data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)) !==================================================== ! Set Well Geometry Data !==================================================== data%State%TD_WellGeo(1)%HoleType = data%Configuration%Path%Items(1)%HoleType data%State%TD_WellGeo(1)%StartAngle = 0.d0 ![rad] data%State%TD_WellGeo(1)%EndAngle = data%Configuration%Path%Items(1)%FinalAngle*(pi/180.d0) ![rad] data%State%TD_WellGeo(1)%IntervalLength= data%Configuration%Path%Items(1)%TotalLength ![ft] !data%State%TD_WellGeo(1)%VerticalDepth = PathGenerations(1)%TotalVerticalDepth data%State%TD_WellGeo(1)%TopDepth = 0.d0 data%State%TD_WellGeo(1)%DownDepth = data%Configuration%Path%Items(1)%MeasuredDepth Do i=2,data%State%TD_WellGeneral%WellIntervalsCount-1 data%State%TD_WellGeo(i)%HoleType = data%Configuration%Path%Items(i)%HoleType data%State%TD_WellGeo(i)%StartAngle = data%Configuration%Path%Items(i-1)%FinalAngle*(pi/180.d0) data%State%TD_WellGeo(i)%EndAngle = data%Configuration%Path%Items(i)%FinalAngle*(pi/180.d0) data%State%TD_WellGeo(i)%IntervalLength= data%Configuration%Path%Items(i)%TotalLength !data%State%TD_WellGeo(i)%VerticalDepth = data%Configuration%Path%Items(i)%TotalVerticalDepth data%State%TD_WellGeo(i)%TopDepth = data%Configuration%Path%Items(i-1)%MeasuredDepth data%State%TD_WellGeo(i)%DownDepth = data%Configuration%Path%Items(i)%MeasuredDepth !=====> Radius Of Curvature Calculation if (data%State%TD_WellGeo(i)%HoleType/=0) then data%State%TD_WellGeo(i)%RCurvature = ((data%State%TD_WellGeo(i)%IntervalLength)/abs(data%State%TD_WellGeo(i)%EndAngle-data%State%TD_WellGeo(i)%StartAngle)) end if End Do !=====> Set ROP Hole Data data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%HoleType = 0 !Straight data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%StartAngle = data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount-1)%EndAngle data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%EndAngle = data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%StartAngle data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%IntervalLength= 0.d0 !data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%VerticalDepth = data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount-1)%VerticalDepth data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%TopDepth = data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount-1)%DownDepth data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%DownDepth = data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%TopDepth+data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%IntervalLength !=====> Vertical Depth Calculation if ( data%State%TD_WellGeo(1)%HoleType==0 ) then data%State%TD_WellGeo(1)%VerticalDepth = data%State%TD_WellGeo(1)%IntervalLength*cos(data%State%TD_WellGeo(1)%StartAngle) else if ( data%State%TD_WellGeo(1)%HoleType==1 ) then data%State%TD_WellGeo(1)%VerticalDepth = (data%State%TD_WellGeo(1)%RCurvature*sin(abs(data%State%TD_WellGeo(1)%EndAngle)-abs(data%State%TD_WellGeo(1)%StartAngle))*cos(abs(data%State%TD_WellGeo(1)%StartAngle)))-(data%State%TD_WellGeo(1)%RCurvature*(1.-cos(abs(data%State%TD_WellGeo(1)%EndAngle)-abs(data%State%TD_WellGeo(1)%StartAngle)))*sin(abs(data%State%TD_WellGeo(1)%StartAngle))) else if ( data%State%TD_WellGeo(1)%HoleType==2 ) then data%State%TD_WellGeo(1)%VerticalDepth = (data%State%TD_WellGeo(1)%RCurvature*sin(abs(abs(data%State%TD_WellGeo(1)%EndAngle)-abs(data%State%TD_WellGeo(1)%StartAngle)))*cos(abs(data%State%TD_WellGeo(1)%StartAngle)))+(data%State%TD_WellGeo(1)%RCurvature*(1.-cos(abs(abs(data%State%TD_WellGeo(1)%EndAngle)-abs(data%State%TD_WellGeo(1)%StartAngle))))*sin(abs(data%State%TD_WellGeo(1)%StartAngle))) End if Do i= 2,data%State%TD_WellGeneral%WellIntervalsCount if ( data%State%TD_WellGeo(i)%HoleType==0 ) then data%State%TD_WellGeo(i)%VerticalDepth = data%State%TD_WellGeo(i-1)%VerticalDepth+data%State%TD_WellGeo(i)%IntervalLength*cos(data%State%TD_WellGeo(i)%StartAngle) else if ( data%State%TD_WellGeo(i)%HoleType==1 ) then data%State%TD_WellGeo(i)%VerticalDepth = data%State%TD_WellGeo(i-1)%VerticalDepth+(data%State%TD_WellGeo(i)%RCurvature*sin(abs(data%State%TD_WellGeo(i)%EndAngle)-abs(data%State%TD_WellGeo(i)%StartAngle))*cos(abs(data%State%TD_WellGeo(i)%StartAngle)))-(data%State%TD_WellGeo(i)%RCurvature*(1.-cos(abs(data%State%TD_WellGeo(i)%EndAngle)-abs(data%State%TD_WellGeo(i)%StartAngle)))*sin(abs(data%State%TD_WellGeo(i)%StartAngle))) else if ( data%State%TD_WellGeo(i)%HoleType==2 ) then data%State%TD_WellGeo(i)%VerticalDepth = data%State%TD_WellGeo(i-1)%VerticalDepth+(data%State%TD_WellGeo(i)%RCurvature*sin(abs(abs(data%State%TD_WellGeo(i)%EndAngle)-abs(data%State%TD_WellGeo(i)%StartAngle)))*cos(abs(data%State%TD_WellGeo(i)%StartAngle)))+(data%State%TD_WellGeo(i)%RCurvature*(1.-cos(abs(abs(data%State%TD_WellGeo(i)%EndAngle)-abs(data%State%TD_WellGeo(i)%StartAngle))))*sin(abs(data%State%TD_WellGeo(i)%StartAngle))) End if End Do !Do i=1,data%State%TD_WellGeneral%WellIntervalsCount ! print*, 'data%State%TD_WellGeo(i)%TopDepth=' , i , data%State%TD_WellGeo(i)%TopDepth ! print*, 'data%State%TD_WellGeo(i)%DownDepth=' , i , data%State%TD_WellGeo(i)%DownDepth ! print*, 'data%State%TD_WellGeo(i)%HoleType=' , i , data%State%TD_WellGeo(i)%HoleType ! print*, 'data%State%TD_WellGeo(i)%RCurvature=' , i , data%State%TD_WellGeo(i)%RCurvature ! print*, 'data%State%TD_WellGeo(i)%EndAngle=' , i , data%State%TD_WellGeo(i)%EndAngle ! print*, 'data%State%TD_WellGeo(i)%StartAngle=' , i , data%State%TD_WellGeo(i)%StartAngle ! print*, 'data%State%TD_WellGeo(i)%VerticalDepth=' , i , data%State%TD_WellGeo(i)%VerticalDepth !end do !=====> Well Total Length Calculation data%State%TD_WellGeneral%WellTotalLength = data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%DownDepth data%State%TD_WellGeneral%WellTotalVerticalLength = data%State%TD_WellGeo(data%State%TD_WellGeneral%WellIntervalsCount)%VerticalDepth end subroutine