SUBROUTINE DEALLOCATE_ARRAYS_CHOKE() USE CHOKEVARIABLES use SimulationVariables !@ implicit none write(*,*) 'deallocateeeeeeeeeeeee' !=========================================================================== ! AIR PUMP LOSSES INPUT !=========================================================================== !if(allocated(PIPINGS_AIRPUMP)) deallocate(PIPINGS_AIRPUMP) DEALLOCATE (data%State%AirPumpLine%PIPINGS_AIRPUMP,data%State%AirPumpLine%DIAM_AIR_INCH, & data%State%AirPumpLine%Re_air,data%State%AirPumpLine%AREA_AIR,data%State%AirPumpLine%LENGT_AIR,data%State%AirPumpLine%ROUGHNESS_AIRPLINE,data%State%AirPumpLine%REL_ROUGHAIR, & data%State%AirPumpLine%fric_air,data%State%AirPumpLine%fricloss_air) !================================================================ DEALLOCATE (data%State%AirPumpLine%MINORS_AIRPUMP,data%State%AirPumpLine%MINORDIAM_AIR_INCH, & data%State%AirPumpLine%MINORAREA_AIR,data%State%AirPumpLine%LF_AIR,data%State%AirPumpLine%CV_AIR,data%State%AirPumpLine%NOTE_AIR & ,data%State%AirPumpLine%minlosspa_air,data%State%AirPumpLine%minloss_air) END SUBROUTINE LOSS_INPUTS_CHOKE() USE CHOKEVARIABLES use SimulationVariables !@ implicit none Integer I !=========================================================================== ! AIR PUMP LOSSES INPUT !=========================================================================== data%State%AirPumpLine%NO_PIPINGS_AIRPLINE=1 ALLOCATE (data%State%AirPumpLine%PIPINGS_AIRPUMP(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE,3)) ! ID(INCH) L(MM) ROUGHNESS(MM)=e DESCRIPTION data%State%AirPumpLine%PIPINGS_AIRPUMP(1,1:3)= (/0.5, 60960., 0.03/) !Avg.acc.distance !60960= 200 ft ALLOCATE(data%State%AirPumpLine%DIAM_AIR_INCH(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) ALLOCATE(data%State%AirPumpLine%Re_air(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) ALLOCATE(data%State%AirPumpLine%AREA_AIR(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) ALLOCATE(data%State%AirPumpLine%LENGT_AIR(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) ALLOCATE(data%State%AirPumpLine%ROUGHNESS_AIRPLINE(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) ALLOCATE(data%State%AirPumpLine%REL_ROUGHAIR(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) ALLOCATE(data%State%AirPumpLine%fric_air(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) ALLOCATE(data%State%AirPumpLine%fricloss_air(data%State%AirPumpLine%NO_PIPINGS_AIRPLINE)) DO I=1,data%State%AirPumpLine%NO_PIPINGS_AIRPLINE data%State%AirPumpLine%DIAM_AIR_INCH(I)=data%State%AirPumpLine%PIPINGS_AIRPUMP(I,1) data%State%AirPumpLine%LENGT_AIR(I)=data%State%AirPumpLine%PIPINGS_AIRPUMP(I,2) data%State%AirPumpLine%ROUGHNESS_AIRPLINE(I)=data%State%AirPumpLine%PIPINGS_AIRPUMP(I,3) data%State%AirPumpLine%AREA_AIR(I)=PI*(data%State%AirPumpLine%DIAM_AIR_INCH(I)*0.0254)**2/4 !D(in), AREA(m) data%State%AirPumpLine%REL_ROUGHAIR(I)=data%State%AirPumpLine%ROUGHNESS_AIRPLINE(I)/(data%State%AirPumpLine%DIAM_AIR_INCH(I)*25.4) !DIAM_RAMLINE_MM(I)=DIAM_RAMLINE_MM(I)*.001 ! (m) data%State%AirPumpLine%LENGT_AIR(I)=data%State%AirPumpLine%LENGT_AIR(I)*.001 ! (m) ENDDO !================================================================ data%State%AirPumpLine%NO_MINORS_AIRPLINE=6 ALLOCATE (data%State%AirPumpLine%MINORS_AIRPUMP(data%State%AirPumpLine%NO_MINORS_AIRPLINE,4)) ! ID(INCH) LF CV NOTE(BAR) DESCRIPTION data%State%AirPumpLine%MINORS_AIRPUMP(1,1:4)= (/2., 10., 0., 0./) !Acc.tee data%State%AirPumpLine%MINORS_AIRPUMP(2,1:4)= (/2., 11., 0., 0./) !elbow data%State%AirPumpLine%MINORS_AIRPUMP(3,1:4)= (/1., 0., 0., 3.4/) !filter data%State%AirPumpLine%MINORS_AIRPUMP(4,1:4)= (/2., 0., 105., 0./) !valve data%State%AirPumpLine%MINORS_AIRPUMP(5,1:4)= (/1., 0., 9.2, 0./) !valve data%State%AirPumpLine%MINORS_AIRPUMP(6,1:4)= (/2., 6.4, 0., 0./) !unionA ALLOCATE (data%State%AirPumpLine%MINORDIAM_AIR_INCH(data%State%AirPumpLine%NO_MINORS_AIRPLINE),data%State%AirPumpLine%MINORAREA_AIR(data%State%AirPumpLine%NO_MINORS_AIRPLINE), & data%State%AirPumpLine%LF_AIR(data%State%AirPumpLine%NO_MINORS_AIRPLINE),data%State%AirPumpLine%CV_AIR(data%State%AirPumpLine%NO_MINORS_AIRPLINE),data%State%AirPumpLine%NOTE_AIR(data%State%AirPumpLine%NO_MINORS_AIRPLINE) & ,data%State%AirPumpLine%minlosspa_air(data%State%AirPumpLine%NO_MINORS_AIRPLINE),data%State%AirPumpLine%minloss_air(data%State%AirPumpLine%NO_MINORS_AIRPLINE)) DO I=1,data%State%AirPumpLine%NO_MINORS_AIRPLINE data%State%AirPumpLine%MINORDIAM_AIR_INCH(I)=data%State%AirPumpLine%MINORS_AIRPUMP(I,1) data%State%AirPumpLine%LF_AIR(I)=data%State%AirPumpLine%MINORS_AIRPUMP(I,2) data%State%AirPumpLine%CV_AIR(I)=data%State%AirPumpLine%MINORS_AIRPUMP(I,3) data%State%AirPumpLine%NOTE_AIR(I)=data%State%AirPumpLine%MINORS_AIRPUMP(I,4) data%State%AirPumpLine%MINORAREA_AIR(I)=PI*(data%State%AirPumpLine%MINORDIAM_AIR_INCH(I)*0.0254)**2/4. !D(in), AREA(m) ENDDO END ! SUBROUTINE PIPE_RAMS_CHOKE(CHNUMBER) ! USE CHOKEVARIABLES ! use ConfigurationVariables !@ ! Use CSimulationVariables ! implicit none ! INTEGER CHNUMBER ! Integer I ! loop3: do while (ABS(data%Equipments%ChokeControlPanel%ChokeControlLever)==1.0 .AND. data%Equipments%ChokeControlPanel%ChokePanelRigAirSwitch == 1 .AND. data%State%CHOOKE(CHNUMBER)%FailMalf==0 .AND. data%State%AirDrivenPump%ChokeAirFail==0) ! if (data%Equipments%ChokeControlPanel%ChokeControlLever == 1.0) then ! data%State%CHOOKE(CHNUMBER)%ChokeIsClosing = .true. ! data%State%CHOOKE(CHNUMBER)%ChokeIsOpening = .false. ! endif ! if (data%Equipments%ChokeControlPanel%ChokeControlLever == -1.0) then ! data%State%CHOOKE(CHNUMBER)%ChokeIsOpening = .true. ! data%State%CHOOKE(CHNUMBER)%ChokeIsClosing = .false. ! endif ! data%State%AirPumpLine%TIME=data%State%AirPumpLine%TIME+data%State%AirPumpLine%DeltaT_Choke !overal time (s) ! call airpump_code_CHOKE(CHNUMBER) ! call sleepqq(100) ! if (IsStopped == .true.) return ! end do loop3 !while finished_Choke==0 ! end SUBROUTINE airpump_code_CHOKE(CHNUMBER) USE CHOKEVARIABLES use SimulationVariables !@ use CChokeManifold use SimulationVariables use CSounds USE CChokeProblemsVariables implicit none Integer I INTEGER CHNUMBER data%State%AirDrivenPump%QAIR_PUMP=data%State%AirPumpLine%QITER+.1 !(gpm) maximum flow for the start data%State%AirPumpLine%diffp_air=-10 data%State%AirPumpLine%losses_air=10 !=================================================================== ! AIR OPERATED PUMP ! MODEL 10-6000W030 RATIO 55:1 !=================for air consumption at 100 psig=================== do while (data%State%AirPumpLine%diffp_air<0) data%State%AirDrivenPump%QAIR_PUMP=data%State%AirDrivenPump%QAIR_PUMP-.1 ! Qup=data%State%AirDrivenPump%QAIR_PUMP; !cc1 = 1354; cc2 = -2066; cc3 = -2109; cc4 = -513.6; cc5 = 5935 FOR OUTPUT IN GPM data%State%AirPumpLine%P_AIRP=data%State%AirDrivenPump%cc1*(data%State%AirDrivenPump%QAIR_PUMP**4) + data%State%AirDrivenPump%cc2*(data%State%AirDrivenPump%QAIR_PUMP**3) + data%State%AirDrivenPump%cc3*(data%State%AirDrivenPump%QAIR_PUMP**2) + data%State%AirDrivenPump%cc4*data%State%AirDrivenPump%QAIR_PUMP + data%State%AirDrivenPump%cc5 !(psig) ! kinetic_air=sg*wdens*(QAIR_PUMP*6.30902e-5/((1/4.)*pi*(2*0.254e-1)**2))**2/(2*6895) !(psi) data%State%AirPumpLine%diffp_air= data%State%AirPumpLine%P_AIRP - data%State%AirPumpLine%Pdownstrem end do !returns Qup do while (abs((data%State%AirPumpLine%diffp_air-data%State%AirPumpLine%losses_air)/data%State%AirPumpLine%diffp_air)>data%State%AirPumpLine%TOL_AIR) !finding correct QAIR_pump for 1 timecounter_ram if (data%State%AirPumpLine%diffp_air-data%State%AirPumpLine%losses_air>0) then data%State%AirDrivenPump%QAIR_PUMP=data%State%AirDrivenPump%QAIR_PUMP+.005 else data%State%AirDrivenPump%QAIR_PUMP=data%State%AirDrivenPump%QAIR_PUMP-.005 endif !=================================================================== ! AIR OPERATED PUMP ! MODEL 10-6000W030 RATIO 55:1 !=================for air consumption at 100 psig=================== data%State%AirPumpLine%P_AIRP=data%State%AirDrivenPump%cc1*(data%State%AirDrivenPump%QAIR_PUMP**4) + data%State%AirDrivenPump%cc2*(data%State%AirDrivenPump%QAIR_PUMP**3) + data%State%AirDrivenPump%cc3*(data%State%AirDrivenPump%QAIR_PUMP**2) + data%State%AirDrivenPump%cc4*data%State%AirDrivenPump%QAIR_PUMP + data%State%AirDrivenPump%cc5 !(psig) !kinetic_air=sg*wdens*(QAIR_PUMP*6.30902e-005/((1/4.)*pi*(2*0.254e-1)**2))**2/(2*6895) !(psi) data%State%AirPumpLine%diffp_air= data%State%AirPumpLine%P_AIRP - data%State%AirPumpLine%Pdownstrem !===========================LOSSES==================================== do i=1,data%State%AirPumpLine%NO_PIPINGS_AIRPLINE data%State%AirPumpLine%Re_air(i)=data%State%AirDrivenPump%QAIR_PUMP*6.30902e-005*data%State%AirPumpLine%DIAM_AIR_INCH(I)*0.0254/(data%State%AirPumpLine%AREA_AIR(i)*nu) enddo do i=1,data%State%AirPumpLine%NO_PIPINGS_AIRPLINE if (data%State%AirPumpLine%Re_air(i) 1.0 ) then data%State%Choke%SoundChokePump= 60 data%State%Choke%Cumulative_AirVolume_Choke= data%State%Choke%Cumulative_AirVolume_Choke - 1.0 else data%State%Choke%SoundChokePump= 0.0 endif data%State%AirPumpLine%DELTAV_AIR=data%State%AirDrivenPump%QAIR_PUMP*data%State%AirPumpLine%DeltaT_Choke/60 !(galon) delta_t=1sec , Q(gpm) if (data%State%CHOOKE(CHNUMBER)%ChokeIsClosing) data%State%CHOOKE(CHNUMBER)%PassedCourse=data%State%CHOOKE(CHNUMBER)%PassedCourse + (data%State%AirPumpLine%DELTAV_AIR*3785.412/data%State%AirPumpLine%Acylinder)!*(ChokeRateControlKnob/10.) ! 3785.412 : GALON TO CM^3 if (data%State%CHOOKE(CHNUMBER)%ChokeIsOpening) data%State%CHOOKE(CHNUMBER)%PassedCourse=data%State%CHOOKE(CHNUMBER)%PassedCourse - (data%State%AirPumpLine%DELTAV_AIR*3785.412/data%State%AirPumpLine%Acylinder)!*(ChokeRateControlKnob/10.) !DeltaT_Choke= 1sec or 2sec !((((((((IN OUTER LOOP)))))) !===============AIR PUMP OUTPUTS========================= data%State%AirPumpLine%alpha_timeair=data%State%AirPumpLine%TIME ! overal time (s) data%State%AirPumpLine%alpha_Pdownstrem=data%State%AirPumpLine%Pdownstrem data%State%AirPumpLine%alpha_pairp=data%State%AirPumpLine%P_AIRP data%State%AirPumpLine%alpha_Qair=data%State%AirDrivenPump%QAIR_PUMP !write(*,*) 'diffp_air=',diffp_air !pause data%State%AirPumpLine%alpha_diffpair=data%State%AirPumpLine%diffp_air data%State%AirPumpLine%alpha_lossesair=data%State%AirPumpLine%losses_air !======================================================== !OPEN(150,FILE='CHOKE_AIRPUMP_OUTPUTS.DAT') if (data%State%CHOOKE(CHNUMBER)%ChokeIsClosing .AND. data%State%CHOOKE(CHNUMBER)%PassedCourse>data%State%AirPumpLine%CourseBase) then data%State%CHOOKE(CHNUMBER)%PassedCourse=data%State%AirPumpLine%CourseBase data%State%Choke%SoundChokePump= 0.0 endif if (data%State%CHOOKE(CHNUMBER)%ChokeIsOpening .AND. data%State%CHOOKE(CHNUMBER)%PassedCourse<0.) then data%State%CHOOKE(CHNUMBER)%PassedCourse=0. data%State%Choke%SoundChokePump= 0.0 endif call SetSoundChokePump(data%State%Choke%SoundChokePump) data%State%CHOOKE(CHNUMBER)%PercentClose= data%State%CHOOKE(CHNUMBER)%PassedCourse/data%State%AirPumpLine%CourseBase IF (data%Equipments%ChokeControlPanel%Choke1LED==1) THEN data%Equipments%ChokeControlPanel%ChokePosition= (1 - data%State%Choke%GaugeChokePositionMailf) * data%State%CHOOKE(1)%PercentClose*10 ELSE ! Choke2LED==1 data%Equipments%ChokeControlPanel%ChokePosition= (1 - data%State%Choke%GaugeChokePositionMailf) * data%State%CHOOKE(2)%PercentClose*10 ENDIF !CALL SetHydraulicChock1(nint(MIN(data%State%CHOOKE(1)%PercentClose / 0.91 , 1.0)*100)) ! CALL SetHydraulicChock2(nint(MIN(data%State%CHOOKE(2)%PercentClose / 0.91 , 1.0)*100)) ! .91 >> 9 percent clearance ! =================== calculating Area ! AreaChoke=0.5 ! .91 >> 9 percent clearance data%State%CHOOKE(1)%AreaChoke=0.01334635-(0.01334635* MIN(data%State%CHOOKE(1)%PercentClose / 0.91 , 1.0)) !ft^2 0.01334635 is ChokeAreaFullyOpen (ft^2) data%State%CHOOKE(2)%AreaChoke=0.01334635-(0.01334635* MIN(data%State%CHOOKE(2)%PercentClose/ 0.91 , 1.0)) !ft^2 data%State%Choke%HydraulicChoke1WashoutCoef= data%State%Choke%HydraulicChoke1WashoutCoef * data%State%CHOOKE(1)%WashoutMalf data%State%Choke%HydraulicChoke1WashoutCoef= MIN( 0.5 , data%State%Choke%HydraulicChoke1WashoutCoef+ data%State%CHOOKE(1)%WashoutMalf*(0.5/(60.0/data%State%AirPumpLine%DeltaT_Choke)) ) ! 0.5=maximum washout coef , 60.0 sec= 1min duration time data%State%Choke%HydraulicChoke2WashoutCoef= data%State%Choke%HydraulicChoke2WashoutCoef * data%State%CHOOKE(2)%WashoutMalf data%State%Choke%HydraulicChoke2WashoutCoef= MIN( 0.5 , data%State%Choke%HydraulicChoke2WashoutCoef+ data%State%CHOOKE(2)%WashoutMalf*(0.5/(60.0/data%State%AirPumpLine%DeltaT_Choke)) ) ! 0.5=maximum washout coef , 60.0 sec= 1min duration time !write(*,*) 'HydraulicChoke1WashoutCoef=' , HydraulicChoke1WashoutCoef IF (data%State%CHOOKE(1)%PlugMalf == 1) THEN data%State%Choke%Present_HydraulicChoke1Plug= data%State%Choke%Present_HydraulicChoke1Plug * data%State%CHOOKE(1)%PlugMalf ! integer: HydraulicChoke1PluggedPercent,HydraulicChoke1PluggedPercent_Old,PlugTimeCounter,ChokePlugTimeDelay ! real: Present_HydraulicChoke1Plug,DeltaPlug1Percent !write(*,*) 'HydraulicChoke1PluggedPercent=' , HydraulicChoke1PluggedPercent if ( (data%problems%ChokeProblems%HydraulicChoke1PluggedPercent - data%State%Choke%HydraulicChoke1PluggedPercent_Old) /= 0) then data%State%Choke%DeltaPlug1Percent = (REAL(data%problems%ChokeProblems%HydraulicChoke1PluggedPercent)/100.) - data%State%Choke%Present_HydraulicChoke1Plug data%State%Choke%Plug1TimeCounter = 0 !write(*,*) 'DeltaPlug1Percent, Present_HydraulicChoke1Plug = ' ,DeltaPlug1Percent , Present_HydraulicChoke1Plug endif data%State%Choke%Plug1TimeCounter= data%State%Choke%Plug1TimeCounter + 1 data%State%Choke%HydraulicChoke1PluggedPercent_Old= data%problems%ChokeProblems%HydraulicChoke1PluggedPercent if (data%State%Choke%Plug1TimeCounter <= data%State%Choke%ChokePlugTimeDelay) then !ChokePlugTimeDelay=600 data%State%Choke%Present_HydraulicChoke1Plug = data%State%Choke%Present_HydraulicChoke1Plug + data%State%CHOOKE(1)%PlugMalf* ((data%State%Choke%DeltaPlug1Percent / real(data%State%Choke%ChokePlugTimeDelay))) ! real(ChokePlugTimeDelay)= 600.0 endif !write(*,*) 'Present_HydraulicChoke1Plug=' , Present_HydraulicChoke1Plug ENDIF IF (data%State%CHOOKE(2)%PlugMalf == 1) THEN data%State%Choke%Present_HydraulicChoke2Plug= data%State%Choke%Present_HydraulicChoke2Plug * data%State%CHOOKE(2)%PlugMalf ! integer: HydraulicChoke2PluggedPercent,HydraulicChoke2PluggedPercent_Old,PlugTimeCounter,ChokePlugTimeDelay ! real: Present_HydraulicChoke2Plug,DeltaPlug2Percent if ( (data%problems%ChokeProblems%HydraulicChoke2PluggedPercent - data%State%Choke%HydraulicChoke2PluggedPercent_Old) /= 0 ) then data%State%Choke%DeltaPlug2Percent = (REAL(data%problems%ChokeProblems%HydraulicChoke2PluggedPercent)/100.) - data%State%Choke%Present_HydraulicChoke2Plug data%State%Choke%Plug2TimeCounter = 0 endif data%State%Choke%Plug2TimeCounter= data%State%Choke%Plug2TimeCounter + 1 data%State%Choke%HydraulicChoke2PluggedPercent_Old= data%problems%ChokeProblems%HydraulicChoke2PluggedPercent if (data%State%Choke%Plug2TimeCounter <= data%State%Choke%ChokePlugTimeDelay) then !ChokePlugTimeDelay=600 data%State%Choke%Present_HydraulicChoke2Plug = data%State%Choke%Present_HydraulicChoke2Plug + data%State%CHOOKE(2)%PlugMalf *((data%State%Choke%DeltaPlug2Percent / real(data%State%Choke%ChokePlugTimeDelay))) ! real(ChokePlugTimeDelay)= 600.0 endif ENDIF ! fully open area is 123/64 in^2 = 0.01334635 ft^2 data%State%CHOOKE(1)%AreaChoke=data%State%CHOOKE(1)%AreaChoke+(data%State%CHOOKE(1)%WashoutMalf*data%State%Choke%HydraulicChoke1WashoutCoef*data%State%Choke%ChokeAreaFullyOpen/144.0) ! Initialised in Choke Startup !write(*,*) 'data%State%CHOOKE(1)%WashoutMalf , data%State%CHOOKE(1)%AreaChoke=' ,data%State%CHOOKE(1)%WashoutMalf , data%State%CHOOKE(1)%AreaChoke data%State%CHOOKE(1)%AreaChoke=data%State%CHOOKE(1)%AreaChoke-(data%State%CHOOKE(1)%PlugMalf* data%State%Choke%Present_HydraulicChoke1Plug *data%State%CHOOKE(1)%AreaChoke) ! Initialised in Choke Startup data%State%CHOOKE(2)%AreaChoke=data%State%CHOOKE(2)%AreaChoke+(data%State%CHOOKE(2)%WashoutMalf*data%State%Choke%HydraulicChoke2WashoutCoef*data%State%Choke%ChokeAreaFullyOpen/144.0) ! Initialised in Choke Startup data%State%CHOOKE(2)%AreaChoke=data%State%CHOOKE(2)%AreaChoke-(data%State%CHOOKE(2)%PlugMalf* data%State%Choke%Present_HydraulicChoke2Plug *data%State%CHOOKE(2)%AreaChoke) ! Initialised in Choke Startup !write(*,*) 'data%State%CHOOKE(2)%WashoutMalf , data%State%CHOOKE(2)%AreaChoke=' ,data%State%CHOOKE(2)%WashoutMalf , data%State%CHOOKE(2)%AreaChoke data%State%CHOOKE(1)%AreaChokeFinal= data%State%CHOOKE(1)%AreaChoke data%State%CHOOKE(2)%AreaChokeFinal= data%State%CHOOKE(2)%AreaChoke ! 144: ft^2 to in^2 CALL SetHydraulicChock1(100 - nint((data%State%CHOOKE(1)%AreaChokeFinal/(data%State%Choke%ChokeAreaFullyOpen/144.))*100)) ! for manifold valve CALL SetHydraulicChock2(100 - nint((data%State%CHOOKE(2)%AreaChokeFinal/(data%State%Choke%ChokeAreaFullyOpen/144.))*100)) ! for manifold valve !write(*,*) 'data%State%CHOOKE(1)%PercentClose=' , data%State%CHOOKE(1)%PercentClose ! close percent 0 to 100 !write(*,*) 'ChokePosition=' , ChokePosition ! close position 0 to 10 for display !write(*,*) 'data%State%CHOOKE(1)%AreaChokeFinal=' , data%State%CHOOKE(1)%AreaChokeFinal ! Open Area (in^2) with clearance !write(*,*) '(ChokeAreaFullyOpen/144.)=' , (ChokeAreaFullyOpen/144.) !write(*,*) 'valve value=' , 100 - nint((data%State%CHOOKE(1)%AreaChokeFinal/(ChokeAreaFullyOpen/144.))*100) ! percent close 0 to 100 with clearance !write(*,*) 'Valve(33)%Status=' , Valve(33)%Status ! T : open , F: close ! =================== calculating Area !write(*,*) 'data%State%CHOOKE(1)%AreaChoke= ' , data%State%CHOOKE(1)%AreaChoke !WRITE(150,50) alpha_timeair,alpha_Qair,alpha_pairp, & !alpha_Pdownstrem,alpha_diffpair,alpha_lossesair,data%State%CHOOKE(CHNUMBER)%PassedCourse !50 FORMAT(7(f15.5)) !======================================================================================== !======================================================================================== ! write(*,*) PassedCourse end