public override double[] GetOverallPropList(string propName, PropertyBasis basis, bool calculate = false) { CasterLogger.Debug($"Get property {propName} for overall"); object value = null; _capeThermoMaterial.GetOverallProp(propName, basis.ToString(), ref value); CasterLogger.Debug($"Property {propName} result: {value}"); return(value as double[]); }
/// <summary> /// Calculation method for the CMixerExample110 unit operation. /// </summary> /// <remarks> /// A mixer unit operation combined the material flows from two inlet ports into the flow of a single outlet port. /// In order to do this calculation, the mixer unit obtains flow information from each inlet port, /// the adds the flows to obtain the flow of the outlet port. In the case of the mixer below, it is assumed that the /// components are the same in each material object and that the components are listed in the same order. /// After the combined flow is calculated at the values set to the outlet port, along with the /// enthalpy of the stream calculated from an energy balance and the pressure determined from /// the inlet pressures, the outlet stream can be flahsed to determine equilibrium conditions. /// The last task is releasing any duplicate material objects obtained. /// </remarks> /// <example> /// <para>An example of how to calculate a unit operation. This method obtains material objects /// from each of ports using the <see cref = "PortCollection"/> class. The <see cref = "ICapeThermoMaterial"/> /// interface is used to obtain the names using the CompIds() method, flows of each of the /// components present in the material object and overall pressure obtained using the /// <see cref = "ICapeThermoMaterial.GetOverallProp"/> method. The enthaply of /// each phase in the inlet materials is calculated using <see cref = "ICapeThermoPropertyRoutine.CalcSinglePhaseProp"/> /// method. The inlet enthalpy was multiplied by the phase flow (phase fraction * overall flow) /// which was summed to determine the outlet stream enthalpy. /// The output pressure from the lower of the two streams' pressure and pressure drop parameter. /// Lastly, the results of the /// calculations are applied to the output material object using the <see cref = "ICapeThermoMaterial.SetOverallProp"/> /// method. The last method of the calculate method is to call the material's /// <see cref = "ICapeThermoEquilibriumRoutine.CalcEquilibrium"/> method.</para> /// <para> /// A calculation report is generated by this method that is made avalable through the /// <see cref = "MixerExample110.ProduceReport"/> method. /// </para> /// <para> /// In this case, the inlet materials need to be released. This is accomplished using the /// <see cref = "System.Runtime.InteropServices.Marshal.ReleaseComObject"/> method. /// Using this method to release the outlet material object would result in an null object reference error. /// </para> /// <para> /// The method also documents use of the <see cref = "CapeObjectBase.throwException"/> method to provide /// CAPE-OPEN compliant error handling. /// </para> /// <code> ///protected override void Calculate() ///{ /// this.calcReport = String.Empty; /// // Log a message using the simulation context (pop-up message commented out. /// if (this.SimulationContext is CapeOpen.ICapeDiagnostic) /// ((CapeOpen.ICapeDiagnostic)this.SimulationContext).LogMessage("Starting Mixer Calculation"); /// this.calcReport = String.Concat(this.calcReport, "Starting Mixer Calculation", System.Environment.NewLine); /// // Get the material Object from Port 0. /// ICapeThermoMaterial in1 = null; /// ICapeThermoMaterial in2 = null; /// ICapeThermoMaterial outlet = null; /// ICapeThermoMaterial temp = null; /// String[] compIds1 = null; /// String[] compIds2 = null; /// String[] compIds3 = null; /// String[] forms = null; /// String[] names = null; /// double[] bTemps = null; /// double[] molWts = null; /// String[] casNos = null; /// try /// { /// temp = (ICapeThermoMaterial)this.Ports[0].connectedObject; /// in1 = (ICapeThermoMaterial)temp.CreateMaterial(); /// in1.CopyFromMaterial(temp); /// if (temp.GetType().IsCOMObject) System.Runtime.InteropServices.Marshal.ReleaseComObject(temp); /// ((CapeOpen.ICapeThermoCompounds)in1).GetCompoundList(ref compIds1, ref forms, ref names, ref bTemps, ref molWts, ref casNos); /// temp = (ICapeThermoMaterial)this.Ports[1].connectedObject; /// in2 = (ICapeThermoMaterial)temp.CreateMaterial(); /// in2.CopyFromMaterial(temp); /// if (temp.GetType().IsCOMObject) System.Runtime.InteropServices.Marshal.FinalReleaseComObject(temp); /// ((CapeOpen.ICapeThermoCompounds)in2).GetCompoundList(ref compIds2, ref forms, ref names, ref bTemps, ref molWts, ref casNos); /// outlet = (ICapeThermoMaterial)this.Ports[2].connectedObject; /// ((CapeOpen.ICapeThermoCompounds)outlet).GetCompoundList(ref compIds3, ref forms, ref names, ref bTemps, ref molWts, ref casNos); /// } /// catch (System.Exception p_Ex) /// { /// CapeOpen.CapeInvalidOperationException ex = new CapeOpen.CapeInvalidOperationException("Material object does not support CAPE-OPEN Thermodynamics 1.1.", p_Ex); /// this.calcReport = String.Concat(this.calcReport, "Material object does not support CAPE-OPEN Thermodynamics 1.1.", System.Environment.NewLine); /// this.throwException(ex); /// } /// int l1 = compIds1.Length; /// int l2 = compIds2.Length; /// int l3 = compIds3.Length; /// if (l1 != l2) /// { /// this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials do not match.", System.Environment.NewLine); /// throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials do not match."); /// } /// if (l1 != l3) /// { /// this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials does not match outlet material.", System.Environment.NewLine); /// throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials does not match outlet material."); /// } /// for (int i = 0; i < l3; i++) /// { /// if ((String.Compare(compIds1[i], compIds2[i])) != 0) /// { /// this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials do not match.", System.Environment.NewLine); /// throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials do not match."); /// } /// /// if (String.Compare(compIds1[i], compIds3[i]) != 0) /// { /// this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials does not match outlet material.", System.Environment.NewLine); /// throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials does not mAtch outlet material."); /// } /// } /// /// double[] flow1 = null; /// double[] flow2 = null; /// double[] press1 = null; /// double[] press2 = null; /// double[] flow3 = new double[l3]; /// String[] props = { "enthalpy" }; /// String[] overall = { "Overall" }; /// double[] enthalpy = { 0 }; /// String[] phases = null; /// CapeOpen.ICapeThermoEquilibriumRoutine eqRoutine; /// string[] strArr1 = null; /// string[] strArr2 = null; /// try /// { /// /// in1.GetOverallProp("flow", "mole", ref flow1); /// double totalFlow = 0; /// foreach (double flow in flow1) /// { /// totalFlow = totalFlow + flow; /// } /// in1.GetOverallProp("pressure", "", ref press1); /// CapeOpen.ICapeThermoPropertyRoutine p_Calc = (CapeOpen.ICapeThermoPropertyRoutine)in1; /// CapeOpen.ICapeThermoPhases phaseList = (CapeOpen.ICapeThermoPhases)in1; /// phaseList.GetPhaseList(ref phases, ref strArr1, ref strArr2); /// foreach (String phase in phases) /// { /// p_Calc.CalcSinglePhaseProp(props, phase); /// double[] enth = null; /// in1.GetSinglePhaseProp("enthalpy", phase, "mole", ref enth); /// double[] fract = null; /// in1.GetSinglePhaseProp("phaseFraction", phase, "mole", ref fract); /// enthalpy[0] = enthalpy[0] + totalFlow * fract[0] * enth[0]; /// } /// IDisposable disp = in1 as IDisposable; /// if (disp != null) /// { /// disp.Dispose(); /// } /// } /// catch (System.Exception p_Ex) /// { /// CapeOpen.ECapeUser user = (CapeOpen.ECapeUser)in1; /// this.calcReport = String.Concat(this.calcReport, user.description, System.Environment.NewLine); /// this.throwException(p_Ex); /// } /// try /// { /// in2.GetOverallProp("flow", "mole", ref flow2); /// double totalFlow = 0; /// foreach (double flow in flow2) /// { /// totalFlow = totalFlow + flow; /// } /// in2.GetOverallProp("pressure", "", ref press2); /// CapeOpen.ICapeThermoPropertyRoutine p_Calc = (CapeOpen.ICapeThermoPropertyRoutine)in2; /// CapeOpen.ICapeThermoPhases phaseList = (CapeOpen.ICapeThermoPhases)in2; /// phaseList.GetPhaseList(ref phases, ref strArr1, ref strArr2); /// foreach (String phase in phases) /// { /// p_Calc.CalcSinglePhaseProp(props, phase); /// double[] enth = null; /// in2.GetSinglePhaseProp("enthalpy", phase, "mole", ref enth); /// double[] fract = null; /// in2.GetSinglePhaseProp("phaseFraction", phase, "mole", ref fract); /// enthalpy[0] = enthalpy[0] + totalFlow * fract[0] * enth[0]; /// } /// IDisposable disp = in2 as IDisposable; /// if (disp != null) /// { /// disp.Dispose(); /// } /// } /// catch (System.Exception p_Ex) /// { /// CapeOpen.ECapeUser user = (CapeOpen.ECapeUser)in2; /// this.calcReport = String.Concat(this.calcReport, user.description, System.Environment.NewLine); /// this.throwException(p_Ex); /// } /// for (int i = 0; i < l3; i++) /// { /// flow3[i] = flow1[i] + flow2[i]; /// } /// try /// { /// outlet.SetOverallProp("flow", "mole", flow3); /// double[] press = new double[1]; /// press[0] = press1[0]; /// if (press1[0] > press2[0]) press[0] = press2[0]; /// double pressdrop = ((CapeOpen.RealParameter)this.Parameters[0]).SIValue; /// press[0] = press[0] - pressdrop; /// outlet.SetOverallProp("pressure", "", press); /// double[] totalFlow = null; /// outlet.GetOverallProp("totalFlow", "mole", ref totalFlow); /// enthalpy[0] = enthalpy[0] / totalFlow[0]; /// outlet.SetOverallProp("enthalpy", "mole", enthalpy); /// this.calcReport = String.Concat(this.calcReport, "The outlet pressure is: ", press[0].ToString(), "Pa", System.Environment.NewLine); /// CapePhaseStatus[] status = { CapePhaseStatus.CAPE_ATEQUILIBRIUM, CapePhaseStatus.CAPE_ATEQUILIBRIUM }; /// outlet.SetPresentPhases(phases, status); /// this.calcReport = String.Concat(this.calcReport, "The outlet ethalpy is: ", enthalpy[0].ToString(), "J/Mole", System.Environment.NewLine); /// eqRoutine = (CapeOpen.ICapeThermoEquilibriumRoutine)outlet; /// String[] spec1 = { "pressure", String.Empty, "Overall" }; /// String[] spec2 = { "enthalpy", String.Empty, "Overall" }; /// eqRoutine.CalcEquilibrium(spec1, spec2, "unspecified"); /// this.calcReport = String.Concat(this.calcReport, "Calculated pressure-enthalpy flash", System.Environment.NewLine); /// } /// catch (System.Exception p_Ex) /// { /// CapeOpen.ECapeUser user = (CapeOpen.ECapeUser)outlet; /// this.calcReport = String.Concat(this.calcReport, user.description, System.Environment.NewLine); /// this.throwException(p_Ex); /// } /// // Log the end of the calculation. /// this.calcReport = String.Concat(this.calcReport, "Ending Mixer Calculation"); /// if (this.SimulationContext is CapeOpen.ICapeDiagnostic) /// ((CapeOpen.ICapeDiagnostic)this.SimulationContext).LogMessage("Ending Mixer Calculation"); ///} /// </code> /// </example> /// <see cref="ICapeThermoMaterial"/> /// <see cref="ICapeThermoCompounds"/> /// <see cref="ICapeThermoPhases"/> /// <see cref="ICapeThermoPropertyRoutine"/> /// <see cref="ICapeThermoEquilibriumRoutine"/> /// <see cref="COMExceptionHandler"/> protected override void Calculate() { this.calcReport = String.Empty; // Log a message using the simulation context (pop-up message commented out. if (this.SimulationContext is CapeOpen.ICapeDiagnostic) { ((CapeOpen.ICapeDiagnostic) this.SimulationContext).LogMessage("Starting Mixer Calculation"); } this.calcReport = String.Concat(this.calcReport, "Starting Mixer Calculation", System.Environment.NewLine); // Get the material Object from Port 0. ICapeThermoMaterial in1 = null; ICapeThermoMaterial in2 = null; ICapeThermoMaterial outlet = null; ICapeThermoMaterial temp = null; String[] compIds1 = null; String[] compIds2 = null; String[] compIds3 = null; String[] forms = null; String[] names = null; double[] bTemps = null; double[] molWts = null; String[] casNos = null; try { temp = (ICapeThermoMaterial)this.Ports[0].connectedObject; in1 = (ICapeThermoMaterial)temp.CreateMaterial(); in1.CopyFromMaterial(temp); if (temp.GetType().IsCOMObject) { System.Runtime.InteropServices.Marshal.ReleaseComObject(temp); } ((CapeOpen.ICapeThermoCompounds)in1).GetCompoundList(ref compIds1, ref forms, ref names, ref bTemps, ref molWts, ref casNos); temp = (ICapeThermoMaterial)this.Ports[1].connectedObject; in2 = (ICapeThermoMaterial)temp.CreateMaterial(); in2.CopyFromMaterial(temp); if (temp.GetType().IsCOMObject) { System.Runtime.InteropServices.Marshal.FinalReleaseComObject(temp); } ((CapeOpen.ICapeThermoCompounds)in2).GetCompoundList(ref compIds2, ref forms, ref names, ref bTemps, ref molWts, ref casNos); outlet = (ICapeThermoMaterial)this.Ports[2].connectedObject; ((CapeOpen.ICapeThermoCompounds)outlet).GetCompoundList(ref compIds3, ref forms, ref names, ref bTemps, ref molWts, ref casNos); } catch (System.Exception p_Ex) { CapeOpen.CapeInvalidOperationException ex = new CapeOpen.CapeInvalidOperationException("Material object does not support CAPE-OPEN Thermodynamics 1.1.", p_Ex); this.calcReport = String.Concat(this.calcReport, "Material object does not support CAPE-OPEN Thermodynamics 1.1.", System.Environment.NewLine); this.throwException(ex); } int l1 = compIds1.Length; int l2 = compIds2.Length; int l3 = compIds3.Length; if (l1 != l2) { this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials do not match.", System.Environment.NewLine); throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials do not match."); } if (l1 != l3) { this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials does not match outlet material.", System.Environment.NewLine); throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials does not match outlet material."); } for (int i = 0; i < l3; i++) { if ((String.Compare(compIds1[i], compIds2[i])) != 0) { this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials do not match.", System.Environment.NewLine); throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials do not match."); } if (String.Compare(compIds1[i], compIds3[i]) != 0) { this.calcReport = String.Concat(this.calcReport, "Compounds in imlet materials does not match outlet material.", System.Environment.NewLine); throw new CapeOpen.CapeInvalidOperationException("Compounds in imlet materials does not mAtch outlet material."); } } double[] flow1 = null; double[] flow2 = null; double[] press1 = null; double[] press2 = null; double[] flow3 = new double[l3]; String[] props = { "enthalpy" }; String[] overall = { "Overall" }; double[] enthalpy = { 0 }; String[] phases = null; CapeOpen.ICapeThermoEquilibriumRoutine eqRoutine; string[] strArr1 = null; string[] strArr2 = null; try { in1.GetOverallProp("flow", "mole", ref flow1); double totalFlow = 0; foreach (double flow in flow1) { totalFlow = totalFlow + flow; } in1.GetOverallProp("pressure", "", ref press1); CapeOpen.ICapeThermoPropertyRoutine p_Calc = (CapeOpen.ICapeThermoPropertyRoutine)in1; CapeOpen.ICapeThermoPhases phaseList = (CapeOpen.ICapeThermoPhases)in1; phaseList.GetPhaseList(ref phases, ref strArr1, ref strArr2); foreach (String phase in phases) { p_Calc.CalcSinglePhaseProp(props, phase); double[] enth = null; in1.GetSinglePhaseProp("enthalpy", phase, "mole", ref enth); double[] fract = null; in1.GetSinglePhaseProp("phaseFraction", phase, "mole", ref fract); enthalpy[0] = enthalpy[0] + totalFlow * fract[0] * enth[0]; } IDisposable disp = in1 as IDisposable; if (disp != null) { disp.Dispose(); } } catch (System.Exception p_Ex) { CapeOpen.ECapeUser user = (CapeOpen.ECapeUser)in1; this.calcReport = String.Concat(this.calcReport, user.description, System.Environment.NewLine); this.throwException(p_Ex); } try { in2.GetOverallProp("flow", "mole", ref flow2); double totalFlow = 0; foreach (double flow in flow2) { totalFlow = totalFlow + flow; } in2.GetOverallProp("pressure", "", ref press2); CapeOpen.ICapeThermoPropertyRoutine p_Calc = (CapeOpen.ICapeThermoPropertyRoutine)in2; CapeOpen.ICapeThermoPhases phaseList = (CapeOpen.ICapeThermoPhases)in2; phaseList.GetPhaseList(ref phases, ref strArr1, ref strArr2); foreach (String phase in phases) { p_Calc.CalcSinglePhaseProp(props, phase); double[] enth = null; in2.GetSinglePhaseProp("enthalpy", phase, "mole", ref enth); double[] fract = null; in2.GetSinglePhaseProp("phaseFraction", phase, "mole", ref fract); enthalpy[0] = enthalpy[0] + totalFlow * fract[0] * enth[0]; } IDisposable disp = in2 as IDisposable; if (disp != null) { disp.Dispose(); } } catch (System.Exception p_Ex) { CapeOpen.ECapeUser user = (CapeOpen.ECapeUser)in2; this.calcReport = String.Concat(this.calcReport, user.description, System.Environment.NewLine); this.throwException(p_Ex); } for (int i = 0; i < l3; i++) { flow3[i] = flow1[i] + flow2[i]; } try { outlet.SetOverallProp("flow", "mole", flow3); double[] press = new double[1]; press[0] = press1[0]; if (press1[0] > press2[0]) { press[0] = press2[0]; } double pressdrop = ((CapeOpen.RealParameter) this.Parameters[0]).SIValue; press[0] = press[0] - pressdrop; outlet.SetOverallProp("pressure", "", press); double[] totalFlow = null; outlet.GetOverallProp("totalFlow", "mole", ref totalFlow); enthalpy[0] = enthalpy[0] / totalFlow[0]; outlet.SetOverallProp("enthalpy", "mole", enthalpy); this.calcReport = String.Concat(this.calcReport, "The outlet pressure is: ", press[0].ToString(), "Pa", System.Environment.NewLine); CapePhaseStatus[] status = { CapePhaseStatus.CAPE_ATEQUILIBRIUM, CapePhaseStatus.CAPE_ATEQUILIBRIUM }; outlet.SetPresentPhases(phases, status); this.calcReport = String.Concat(this.calcReport, "The outlet ethalpy is: ", enthalpy[0].ToString(), "J/Mole", System.Environment.NewLine); eqRoutine = (CapeOpen.ICapeThermoEquilibriumRoutine)outlet; String[] spec1 = { "pressure", String.Empty, "Overall" }; String[] spec2 = { "enthalpy", String.Empty, "Overall" }; eqRoutine.CalcEquilibrium(spec1, spec2, "unspecified"); this.calcReport = String.Concat(this.calcReport, "Calculated pressure-enthalpy flash", System.Environment.NewLine); } catch (System.Exception p_Ex) { CapeOpen.ECapeUser user = (CapeOpen.ECapeUser)outlet; this.calcReport = String.Concat(this.calcReport, user.description, System.Environment.NewLine); this.throwException(p_Ex); } // Log the end of the calculation. this.calcReport = String.Concat(this.calcReport, "Ending Mixer Calculation"); if (this.SimulationContext is CapeOpen.ICapeDiagnostic) { ((CapeOpen.ICapeDiagnostic) this.SimulationContext).LogMessage("Ending Mixer Calculation"); } }