FSD100MbP?h㈵>d6*dfffffr@ϼ@Torbjrn PettersenA simple CHP cycle@;Yx Thermos AS~Qx temperaturepressure compositionflow @333333S@H@Q@@Fpressure temperatureflowenthalpy compositionphase fraction W@[@@@ D@@F Heat duty W@33333\@:@̌@@@FEnergy generation W@\@3@:@@FEnergy generation W@fffffF\@H@33333L@?F W@33333s\@"@ffffff2@@F Heat dutyOutlet temperature¼:*>C Water 7732-18-5Waterg2@OO!Qw@H2OWaterWater ????????????thermalConductivityOfVapor??volumeChangeUponVaporization@@@@molecularWeightsurfaceTensionSatLiquid??viscosityOfLiquid????idealGasEntropy??volumeOfLiquid@@@@enthalpy??heatCapacityCv??gibbsFreeEnergy??density?@?@thermalConductivity??energy??surfaceTension??thermalConductivityOfLiquid??entropy??volume@@@@idealGasEnthalpy?? heatCapacity?? viscosity????viscosityOfVapor????@&{AF036DFE-C6E1-4A03-B5BB-1F4A0C89C2A3}Pressure difference??Pressure??Energy generation??TotalMassBalancePropertiesFraction?? TotalFlowMass?? TotalFlowMole??&{FA96FF67-5CB8-44FB-8D65-0367E42BBF4A} Pressure drop??Pressure??Energy generation??Isentropic efficiency??&{779B2C7A-F54B-4A1D-B345-7FA14B889642}Outlet temperature?? Heat duty?? Pressure drop??&{E813F646-A25E-4B14-8873-4853D1AA3252}Pressure increase??Pressure?? Energy demand??&{FCC17C95-0B2E-4946-B873-A35B10C4B6E1} Pressure drop?? Temperature?? Heat duty??&{708D633D-65E6-4C80-9C7F-55206BD6F1C4} Flow_rate??&{33C43C04-EDAD-41A9-A952-62CDDCF67932} Pressure drop?? Split factors??COFE_Controller Set point?? streamParamsHeat duty@m2@kg1@s-3??Mole flow@s-1@mol1??Mass flow@kg1@s-1??&{EF130956-4BC7-49EB-8B04-65965125EA19}&{A2D0E5C2-DCF4-4485-A8C7-D60663C19E24}mole flow tolerance??&{73815009-4D17-4267-AC7F-EC2AA19784E5} Pressure drop??&{E2E09621-540F-4941-84F7-C6628F093069}COFE_FlowConstraint Mole flow?? Mass flow??surfaceTensionSatLiquidthermalConductivityOfLiquidthermalConductivityOfVapor vaporPressurevolumeChangeUponVaporizationvolumeOfLiquidviscosityOfLiquidviscosityOfVaporidealGasEntropyidealGasEnthalpydensityenthalpyentropy heatCapacityheatCapacityCvenergymolecularWeightthermalConductivityvolume viscositygibbsFreeEnergysurfaceTensionbubblePointTemperaturebubblePointPressuredewPointTemperaturedewPointPressureVaporWaterWaterVaporLiquidWaterWaterLiquid VaporLiquiddefaultdefault material templateWater1%0)!)%0)%%)0) default@A33333i@^l@((֖@???????33333i@@Aj|Xq@@?23L)N#N'L#N)L)N)N# defaultjA+$"}@^l@((֖@???????I\C|3u@qq@25YPZ PZYZZP default@ Rs@ca@#Wm@??cgL???:13fQ???26L/>/LL/ default@fffffs@ca@#Wm@?????27+++ default@AAaխrs@ca@#Wm@?????211M=J=MMM= defaultjA &}@aQbW@[HL??????24OUOOUOOU defaultjA &}@ca@#Wm@?????2129/4/99/ defaultjAfffffx@aQbW@[HL??????28##### default@A>Pxu@^l@((֖@?????213+++ default@Aqx@aQbW@[HL??????221!''!!!'  Heat duty Heat duty@x@xD`fA@?222)H)=)2)H)2)H) default@A33333i@^l@((֖@?????222)1(1)1()11(  Mass flowTotal mass flow((֖@@?231;@;;@;;@  Heat duty Heat duty@x@xDN@?232BKFBKBK  Split factors!Split factors for (n - 1) outlets?zIW??2 HP-turbine>Expander - unit increasing the pressure due to the work input.g\Deg+JXCOUSCOUS0002Pressure spec.!Oulet pressure specification typePressure Pressure drop Pressure dropPressure Energy spec.-Expander energy generation specification type Efficiency EfficiencyEnergy generation EfficiencyEnergy specification stream Pressure dropExpander pressure drop??>A _BPressureExpander outlet pressure?jAj@ _BEnergy generation Energy generated by the expander@?@v r4A@xDIsentropic efficiencyExpander isentropic efficiency333333???Thermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last run+++ specifications +++ Pressure: 200000 Pa Isentropic efficiency: 0.6 +++ optional parameters +++ Pressure drop: 2000000 Pa Isentropic efficiency: 0.6 H'L+ $not all material ports are connected InletOutlet@@@K(^&?333333??333333?@@:t= @@@:t= @@@:t= @@@:t= @@@:t= @@@ LP-turbine>Expander - unit increasing the pressure due to the work input.g\Deg+JTCOUSCOUS0002Pressure spec.!Oulet pressure specification typePressure Pressure drop Pressure dropPressure Energy spec.-Expander energy generation specification type Efficiency EfficiencyEnergy generation EfficiencyEnergy specification stream Pressure dropExpander pressure drop??1A _BPressureExpander outlet pressure?@j@ _BEnergy generation Energy generated by the expander@?@ i1>&A@xDIsentropic efficiencyExpander isentropic efficiency333333???Thermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last run+++ specifications +++ Pressure: 10000 Pa Isentropic efficiency: 0.6 +++ optional parameters +++ Pressure drop: 190000 Pa Isentropic efficiency: 0.6 UY $not all material ports are connectedInletOutlet@@@K(^&?333333??333333?@@:t= @@@:t= @@@:t= @@@:t= @@@:t= @@@ CondensorMHeaterCooler - heat or cool stream specifying heat duty or outlet temperaturez,wKJEKB COUSCOUS0002TypeType of heat duty specification Temperature Heat duty Heat duty Temperature Energy inletOutlet temperature!Temperature of the product stream?fffffs@r@ _B Heat duty Heat duty@?@ԟu˫V@x@xD Pressure dropPressure drop along the unit?? _BThermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last run+++ specifications +++ Heat duty: -5943085.83633496 W Pressure drop: 0 Pa +++ optional parameters +++ Outlet temperature: 313.15 K LP $not all material ports are connectedInletOutlet b@[~  lb@[~  lb@[~  lb@[~  l@@ ɿ@????@@@@@ɿ@@Pump LP>Pump - unit increasing the pressure due to the work performed.F^KsHSѪ2R0COUSCOUS0002Pressure spec.$Pressure increase specification typePressurePressure increasePressure increasePressure Energy spec. Energy demand specification type Efficiency Efficiency Energy demand EfficiencyPressure increasePressure increase??X@A _BPressureOutlet pressure?@Aj@ _B Energy demandEnergy consumed by the pump@?@?N@@xDAdiabatic efficiencyPump adiabatic efficiency???Thermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last run+++ specifications +++ Pressure: 2200000 Pa Adiabatic efficiency: 0.75 +++ optional parameters +++ Pressure increase: 2190000 Pa Energy demand: 7246.03089408536 W Adiabatic efficiency: 0.75 +/ $not all material ports are connectedInletOutlet@@@:t= @@@@K(^&?@?:t= @@?:t= @@?:t= @@?:t= @@BoilerMHeaterCooler - heat or cool stream specifying heat duty or outlet temperaturez,wKJEKBCOUSCOUS0002TypeType of heat duty specification Temperature Heat duty Heat duty Temperature Energy inletOutlet temperature!Temperature of the product stream?33333i@r@ _B Heat duty Heat duty@?@`fA@x@xD Pressure dropPressure drop along the unit?? _BThermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last run+++ specifications +++ Heat duty: 11999999.9997849 W Pressure drop: 0 Pa +++ optional parameters +++ Outlet temperature: 653.15 K & $not all material ports are connected Heat duty Heat duty Heat dutyParameter Heat duty6Virtual information port linked to parameter Heat duty @? Heat duty@x@xDInletOutlet Parameter Heat dutyfE~ fE~ fE~ 0@?@?@???@@@@@@@@@@@@@?@?@@@@@?@?@@@@ @ Energy clientMHeaterCooler - heat or cool stream specifying heat duty or outlet temperaturez,wKJEKB COUSCOUS0002TypeType of heat duty specification Temperature Heat duty Heat duty Temperature Energy inletOutlet temperature!Temperature of the product stream?fffffx@r@ _B Heat duty Heat duty@?@N@x@xD Pressure dropPressure drop along the unit?? _BThermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last run+++ specifications +++ Heat duty: -4000000.00151967 W Pressure drop: 0 Pa +++ optional parameters +++ Outlet temperature: 393.15 K 9= $not all material ports are connected Heat duty Heat duty Heat dutyParameter Heat duty6Virtual information port linked to parameter Heat duty @? Heat duty@x@xDInletOutlet Parameter Heat duty b<(_4_lb<(_4_lb<(_4_lb<(_4_l@@ ɿ@????@@@@@ɿ@@@Splitter9Splitter - split input stream in number of output streams<3ARby2COUSCOUS0002Number of outletsNumber of outlet ports Split factors!Split factors for (n - 1) outletszIW?? Pressure drop Pressure drop along the splitter?? _BThermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last runb+++ specifications +++ Number of outlets: 2 Split factors: [ 0.406332] Pressure drop: 0 Pa KQ# $not all material ports are connected Split factors Split factors!Split factors for (n - 1) outletsParameter Split factors:Virtual information port linked to parameter Split factors  Split factors?InletParameter Split factorsOutlet1Outlet20@@@@@@@Mixer6Mixer - mix 2 or more inlet streams to a single outletk!^/E a-COUSCOUS0002Number of inletsNumber of inlet ports Pressure dropPressure drop along the mixer?? _BThermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last runD+++ specifications +++ Number of inlets: 2 Pressure drop: 0 Pa  $not all material ports are connectedInlet 1 Inlet 2Outlet0@@@@@@@Pump HP>Pump - unit increasing the pressure due to the work performed.F^KsHSѪ2R0COUSCOUS0002Pressure spec.$Pressure increase specification typePressurePressure increasePressure increasePressure Energy spec. Energy demand specification type Efficiency Efficiency Energy demand EfficiencyPressure increasePressure increase??>A _BPressureOutlet pressure?@Aj@ _B Energy demandEnergy consumed by the pump@?@ a露@@xDAdiabatic efficiencyPump adiabatic efficiency???Thermo Version*Thermodynamics CAPE-OPEN Interface version1.11.01.01.1Last run+++ specifications +++ Pressure: 2200000 Pa Adiabatic efficiency: 0.75 +++ optional parameters +++ Pressure increase: 2000000 Pa Energy demand: 4764.91165000524 W Adiabatic efficiency: 0.75 +/ $not all material ports are connectedInlet Outlet@@@:t= @@@@K(^&?@?:t= @@?:t= @@?:t= @@?:t= @@FlowConstraint*((֖@^l@0(2* Outlet port not connected Mass flow Mass flowTotal mass flowParameter Mass flow6Virtual information port linked to parameter Mass flow? Mass flowInlet Parameter Mass flow Outlet@@@@@@@@@@?????@ Boiler duty.*`fA Heat duty Mass flow') &Controlled variable port not connected Measured variable Controlled variable@@@@@@@@@@?ffffff?c?@ Heat duty2*N Heat duty Split factors@B &Controlled variable port not connected Measured variableControlled variable@@@@@@@@@@?ffffff?c?@MS Sans-C6?-C6?h㈵>-C6?