public RW_COATING getData(int ID, string corrosionRate) { RW_COATING coat = new RW_COATING(); BUS_UNITS convUnit = new BUS_UNITS(); coat.ID = ID; coat.ExternalCoating = chkExternalCoat.Checked ? 1 : 0; coat.ExternalInsulation = chkExternalIsulation.Checked ? 1 : 0; coat.InternalCladding = chkInternalCladding.Checked ? 1 : 0; coat.InternalCoating = chkInternalCoat.Checked ? 1 : 0; coat.InternalLining = chkInternalLining.Checked ? 1 : 0; coat.ExternalCoatingDate = dateExternalCoating.DateTime; coat.ExternalCoatingQuality = cbExternalCoatQuality.Text; coat.ExternalInsulationType = cbExternalIsulation.Text; coat.InternalLinerCondition = cbInternalLinerCondition.Text; coat.InsulationContainsChloride = chkInsulationContainsChlorides.Checked ? 1 : 0; coat.InternalLinerType = cbInternalLinerType.Text; if (corrosionRate == "mm/yr") { coat.CladdingCorrosionRate = txtCladdingCorrosionRate.Text == "" ? 0 : float.Parse(txtCladdingCorrosionRate.Text); } else { coat.CladdingCorrosionRate = txtCladdingCorrosionRate.Text == "" ? 0 : (float.Parse(txtCladdingCorrosionRate.Text) * (float)convUnit.mil); } coat.SupportConfigNotAllowCoatingMaint = chkSupport.Checked ? 1 : 0; coat.InsulationCondition = cbIsulationCondition.Text; return(coat); }
public RW_EQUIPMENT getData(int ID, string temUnit, string volUnit) { RW_EQUIPMENT eq = new RW_EQUIPMENT(); RW_ASSESSMENT_BUS assBus = new RW_ASSESSMENT_BUS(); BUS_UNITS convUnit = new BUS_UNITS(); eq.ID = ID; eq.AdminUpsetManagement = chkAministrativeControl.Checked ? 1 : 0; eq.ContainsDeadlegs = chkContainsDeadlegs.Checked ? 1 : 0; eq.CyclicOperation = chkCylicOperation.Checked ? 1 : 0; eq.HighlyDeadlegInsp = chkHighlyEffectiveInspection.Checked ? 1 : 0; eq.DowntimeProtectionUsed = chkDowntimeProtection.Checked ? 1 : 0; eq.ExternalEnvironment = cbExternalEnvironment.Text; eq.HeatTraced = chkHeatTraced.Checked ? 1 : 0; eq.InterfaceSoilWater = chkInterfaceSoilWater.Checked ? 1 : 0; eq.LinerOnlineMonitoring = chkLinerOnlineMonitoring.Checked ? 1 : 0; eq.MaterialExposedToClExt = chkMaterialExposedFluid.Checked ? 1 : 0; double minReqTem = 0; if (temUnit == "DEG_C") { minReqTem = txtMinRequiredTemperature.Text != "" ? double.Parse(txtMinRequiredTemperature.Text) : 0; } else if (temUnit == "DEG_F") { minReqTem = txtMinRequiredTemperature.Text != "" ? convUnit.FahToCel(double.Parse(txtMinRequiredTemperature.Text)) : 0; // mai } else { minReqTem = txtMinRequiredTemperature.Text != "" ? convUnit.KenvinToCel(double.Parse(txtMinRequiredTemperature.Text)) : 0; // mai } eq.MinReqTemperaturePressurisation = (float)minReqTem; eq.OnlineMonitoring = cbOnlineMonitoring.Text; eq.PresenceSulphidesO2 = chkPresenceSulphideOperation.Checked ? 1 : 0; eq.PresenceSulphidesO2Shutdown = chkPresenceSulphideShutdown.Checked ? 1 : 0; eq.PressurisationControlled = chkPressurisationControlled.Checked ? 1 : 0; eq.PWHT = chkPWHT.Checked ? 1 : 0; eq.SteamOutWaterFlush = chkSteamedOutPriorWaterFlushing.Checked ? 1 : 0; int equipmentID = assBus.getEquipmentID(ID); float FMS = busFacility.getFMS(busEquipmentMaster.getFacilityID(equipmentID)); eq.ManagementFactor = FMS; eq.ThermalHistory = cbThermalHistory.Text; eq.YearLowestExpTemp = chkEquipmentOperatingManyYear.Checked ? 1 : 0; double equipVolume = 0; if (volUnit == "m3") { equipVolume = txtEquipmentVolume.Text != "" ? float.Parse(txtEquipmentVolume.Text) : 0; } else { equipVolume = txtMinRequiredTemperature.Text != "" ? (float.Parse(txtEquipmentVolume.Text) * convUnit.ft3) : 0; // mai } eq.Volume = (float)equipVolume; //eq.CommissionDate = return(eq); }
public RW_INPUT_CA_LEVEL_1 getDataforCA(int id, string temperatureUnit, string pressureUnit)//thao { RW_INPUT_CA_LEVEL_1 ca = new RW_INPUT_CA_LEVEL_1(); BUS_UNITS convUnit = new BUS_UNITS(); ca.ID = id; switch (temperatureUnit) { case "DEG_C": ca.Stored_Temp = txtMinimumOperatingTemp.Text != "" ? float.Parse(txtMinimumOperatingTemp.Text) + 273 : 0; break; case "DEG_F": ca.Stored_Temp = txtMinimumOperatingTemp.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtMinimumOperatingTemp.Text)) + 273 : 0; break; case "K": ca.Stored_Temp = txtMinimumOperatingTemp.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtMinimumOperatingTemp.Text)) + 273 : 0; break; } switch (pressureUnit) { case "psi": ca.Stored_Pressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * 6.895f : 0; break; case "KSI": ca.Stored_Pressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.ksi * 6.895f : 0; break; case "bar": ca.Stored_Pressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.bar * 6.895f : 0; break; case "MPa": ca.Stored_Pressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.MPa * 6.895f : 0; break; case "NpM2": ca.Stored_Pressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.NpM2 * 6.895f : 0; break; case "NpCM2": ca.Stored_Pressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.NpCM2 * 6.895f : 0; break; } return(ca); }
public RW_INPUT_CA_TANK getDataforTank(int ID, string diameter) { RW_INPUT_CA_TANK tank = new RW_INPUT_CA_TANK(); BUS_UNITS convUnit = new BUS_UNITS(); tank.ID = ID; if (diameter == "MM") { tank.TANK_DIAMETTER = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) : 0; } else if (diameter == "INCH") { tank.TANK_DIAMETTER = txtTankDiameter.Text != "" ? (float)(double.Parse(txtTankDiameter.Text) * convUnit.inch) : 0; // in sang mm } //else tank.TANK_DIAMETTER = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) : 0; // m sang mm tank.ConcreteFoundation = chkConcreteAsphalt.Checked ? 1 : 0; tank.Prevention_Barrier = chkPreventionBarrier.Checked ? 1 : 0; return(tank); }
public RW_INPUT_CA_TANK getDataforTank(int ID, string diameter) { RW_INPUT_CA_TANK tank = new RW_INPUT_CA_TANK(); BUS_UNITS convUnit = new BUS_UNITS(); tank.ID = ID; if (diameter == "mm") { tank.TANK_DIAMETTER = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) : 0; } else if (diameter == "in") { tank.TANK_DIAMETTER = txtTankDiameter.Text != "" ? (float)(double.Parse(txtTankDiameter.Text) * convUnit.inch) : 0; // in sang mm } else { tank.TANK_DIAMETTER = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) * 1000 : 0; // m sang mm } tank.TANK_DIAMETTER = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) : 0; tank.Prevention_Barrier = chkPreventionBarrier.Checked ? 1 : 0; tank.SHELL_COURSE_HEIGHT = txtShellCourseHeight.Text != "" ? float.Parse(txtShellCourseHeight.Text) : 0; return(tank); }
public void ShowDatatoControl(int ID, string temUnit, string volumeUnit) { RW_EQUIPMENT_BUS eqBus = new RW_EQUIPMENT_BUS(); BUS_UNITS convUnit = new BUS_UNITS(); List <RW_EQUIPMENT> listEq = eqBus.getDataSource(); foreach (RW_EQUIPMENT e in listEq) { if (e.ID == ID) { chkAministrativeControl.Checked = e.AdminUpsetManagement == 1 ? true : false; chkHighlyEffectiveInspection.Checked = e.HighlyDeadlegInsp == 1 ? true : false; chkDowntimeProtection.Checked = e.DowntimeProtectionUsed == 1 ? true : false; chkHeatTraced.Checked = e.HeatTraced == 1 ? true : false; chkInterfaceSoilWater.Checked = e.InterfaceSoilWater == 1 ? true : false; chkEquipmentOperatingManyYear.Checked = e.YearLowestExpTemp == 1 ? true : false; chkMaterialExposedFluid.Checked = e.MaterialExposedToClExt == 1 ? true : false; chkPresenceSulphideOperation.Checked = e.PresenceSulphidesO2 == 1 ? true : false; chkContainsDeadlegs.Checked = e.ContainsDeadlegs == 1 ? true : false; chkCylicOperation.Checked = e.CyclicOperation == 1 ? true : false; chkSteamedOutPriorWaterFlushing.Checked = e.SteamOutWaterFlush == 1 ? true : false; chkPWHT.Checked = e.PWHT == 1 ? true : false; chkLinerOnlineMonitoring.Checked = e.LinerOnlineMonitoring == 1 ? true : false; chkPresenceSulphideShutdown.Checked = e.PresenceSulphidesO2Shutdown == 1 ? true : false; if (temUnit == "DEG_C") { txtMinRequiredTemperature.Text = e.MinReqTemperaturePressurisation.ToString(); } else if (temUnit == "DEG_F") { txtMinRequiredTemperature.Text = (convUnit.CelToFah(e.MinReqTemperaturePressurisation)).ToString(); } else { txtMinRequiredTemperature.Text = (convUnit.CelToKenvin(e.MinReqTemperaturePressurisation)).ToString(); } for (int i = 0; i < itemsExternalEnvironment.Length; i++) { if (itemsExternalEnvironment[i] == e.ExternalEnvironment) { cbExternalEnvironment.SelectedIndex = i + 1; } } for (int j = 0; j < itemsOnlineMonitoring.Length; j++) { if (itemsOnlineMonitoring[j] == e.OnlineMonitoring) { cbOnlineMonitoring.SelectedIndex = j + 1; } } for (int i = 0; i < itemsThermalHistory.Length; i++) { if (itemsThermalHistory[i] == e.ThermalHistory) { cbThermalHistory.SelectedIndex = i + 1; } } if (volumeUnit == "m3") { txtEquipmentVolume.Text = e.Volume.ToString(); } else if (volumeUnit == "ft3") { txtEquipmentVolume.Text = (e.Volume * convUnit.ft3).ToString(); } } } }
public RW_COMPONENT getData(int ID, string diameter, string thickness, string corrosionRate, string volumeUnit, string stressUnit) { RW_COMPONENT comp = new RW_COMPONENT(); comp.ID = ID; BUS_UNITS convUnit = new BUS_UNITS(); //Generic Properties if (diameter == "MM") { comp.NominalDiameter = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) : 0; } else if (diameter == "INCH") { comp.NominalDiameter = txtTankDiameter.Text != "" ? (float)(double.Parse(txtTankDiameter.Text) * convUnit.inch) : 0; // in sang mm } if (thickness == "MM") { comp.NominalThickness = txtNominalThickness.Text != "" ? float.Parse(txtNominalThickness.Text) : 0; comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? float.Parse(txtMinRequiredThickness.Text) : 0; comp.BrittleFractureThickness = txtBrittleFractureThickness.Text != "" ? float.Parse(txtBrittleFractureThickness.Text) : 0; comp.StructuralThickness = txtStructuralThickness.Text != "" ? float.Parse(txtStructuralThickness.Text) : 0; } else if (thickness == "INCH") { comp.NominalThickness = txtNominalThickness.Text != "" ? (float)(double.Parse(txtNominalThickness.Text) * convUnit.inch) : 0; // in sang mm comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? (float)(double.Parse(txtMinRequiredThickness.Text) * convUnit.inch) : 0; // in sang mm comp.BrittleFractureThickness = txtBrittleFractureThickness.Text != "" ? (float)(double.Parse(txtBrittleFractureThickness.Text) * convUnit.inch) : 0; comp.StructuralThickness = txtStructuralThickness.Text != "" ? (float)(double.Parse(txtStructuralThickness.Text) * convUnit.inch) : 0; } if (corrosionRate == "MMYR") { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)double.Parse(txtCurrentCorrosionRate.Text) : 0; } else { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)(double.Parse(txtCurrentCorrosionRate.Text) * convUnit.mil) : 0; // mil/yr sang mm/yr } if (volumeUnit == "M3") { comp.ComponentVolume = txtComponentVolume.Text != "" ? float.Parse(txtComponentVolume.Text) : 0; } else { comp.ComponentVolume = txtComponentVolume.Text != "" ? (float)(double.Parse(txtComponentVolume.Text) * convUnit.ft3) : 0; } if (stressUnit == "KSI") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.ksi) : 0; } else if (stressUnit == "PSI") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.psi) : 0; } else if (stressUnit == "MPA") { comp.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) : 0; } else if (stressUnit == "BAR") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.bar) : 0; } else if (stressUnit == "NM2") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.NpM2) : 0; } else { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.NpCM2) : 0; } comp.WeldJointEfficiency = txtWeldJointEfficiency.Text != "" ? float.Parse(txtWeldJointEfficiency.Text) : 0; comp.ConfidenceCorrosionRate = cbConfidenceCorrosionRate.Text; comp.CracksPresent = chkPresenceCracks.Checked ? 1 : 0; comp.MinimumStructuralThicknessGoverns = chkMinimumStructuralThicknessGoverns.Checked ? 1 : 0; //Governing Stress Corrosion Cracking Damage Factor comp.BrinnelHardness = cbMaxBrillnessHardness.Text; //Governing Brittle Fracture Damage Factor comp.FabricatedSteel = chkFabricatedSteel.Checked ? 1 : 0; comp.EquipmentSatisfied = chkEquipmentSatisfied.Checked ? 1 : 0; comp.NominalOperatingConditions = chkNominalOperatingConditions.Checked ? 1 : 0; comp.CETGreaterOrEqual = chkCETGreaterOrEqual.Checked ? 1 : 0; comp.CyclicServiceFatigueVibration = chkCyclicServiceFatigueVibration.Checked ? 1 : 0; comp.EquipmentCircuitShock = chkEquipmentCircuitShock.Checked ? 1 : 0; //Governing Fatigue Damage Factor comp.SeverityOfVibration = cbSeverityVibration.Text; //Governing External Damage Factor comp.ComplexityProtrusion = cbComplexityProtrusion.Text; //Tank Consequence of Falure comp.ConcreteFoundation = chkConcreteAsphalt.Checked ? 1 : 0; comp.ShellHeight = txtShellHeight.Text != "" ? float.Parse(txtShellHeight.Text) : 0; comp.ReleasePreventionBarrier = chkPreventionBarrier.Checked ? 1 : 0; return(comp); }
public RW_COMPONENT getData(int ID, string diameter, string thickness, string corrosionRate) { RW_COMPONENT comp = new RW_COMPONENT(); comp.ID = ID; BUS_UNITS convUnit = new BUS_UNITS(); if (diameter == "mm") { comp.NominalDiameter = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) : 0; } else if (diameter == "in") { comp.NominalDiameter = txtTankDiameter.Text != "" ? (float)(double.Parse(txtTankDiameter.Text) * convUnit.inch) : 0; // in sang mm } else { comp.NominalDiameter = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) * 1000 : 0; // m sang mm } //comp.NominalDiameter = txtTankDiameter.Text != "" ? float.Parse(txtTankDiameter.Text) : 0; if (thickness == "mm") { comp.NominalThickness = txtNominalThickness.Text != "" ? float.Parse(txtNominalThickness.Text) : 0; comp.CurrentThickness = txtCurrentThickness.Text != "" ? float.Parse(txtCurrentThickness.Text) : 0; comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? float.Parse(txtMinRequiredThickness.Text) : 0; } else if (thickness == "in") { comp.NominalThickness = txtNominalThickness.Text != "" ? (float)(double.Parse(txtNominalThickness.Text) * convUnit.inch) : 0; // in sang mm comp.CurrentThickness = txtCurrentThickness.Text != "" ? (float)(double.Parse(txtCurrentThickness.Text) * convUnit.inch) : 0; // in sang mm comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? (float)(double.Parse(txtMinRequiredThickness.Text) * convUnit.inch) : 0; // in sang mm } else { comp.NominalThickness = txtNominalThickness.Text != "" ? (float)(double.Parse(txtNominalThickness.Text) * 1000) : 0; // m sang mm comp.CurrentThickness = txtCurrentThickness.Text != "" ? (float)(double.Parse(txtCurrentThickness.Text) * 1000) : 0; // m sang mm comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? (float)(double.Parse(txtMinRequiredThickness.Text) * 1000) : 0; // m sang mm } //comp.NominalThickness = txtNominalThickness.Text != "" ? float.Parse(txtNominalThickness.Text) : 0; //comp.CurrentThickness = txtCurrentThickness.Text != "" ? float.Parse(txtCurrentThickness.Text) : 0; //comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? float.Parse(txtMinRequiredThickness.Text) : 0; if (corrosionRate == "mm/yr") { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)double.Parse(txtCurrentCorrosionRate.Text) : 0; } else { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)(double.Parse(txtCurrentCorrosionRate.Text) * convUnit.mil) : 0; // mil/yr sang mm/yr } //comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? float.Parse(txtCurrentCorrosionRate.Text) : 0; comp.BrinnelHardness = cbMaxBrillnessHardness.Text; comp.SeverityOfVibration = cbSeverityVibration.Text; comp.ComplexityProtrusion = cbComplexityProtrusion.Text; comp.DamageFoundInspection = chkDamageFoundDuringInspection.Checked ? 1 : 0; comp.CracksPresent = chkPresenceCracks.Checked ? 1 : 0; comp.TrampElements = chkTrampElements.Checked ? 1 : 0; //kiem tra dieu kien API Component Type -> Disable control cua shell hoac cua bottom //tank Shell Course comp.ShellHeight = txtShellCourseHeight.Text != "" ? float.Parse(txtShellCourseHeight.Text) : 0; //tank bottom comp.ConcreteFoundation = chkConcreteAsphalt.Checked ? 1 : 0; comp.ReleasePreventionBarrier = chkPreventionBarrier.Checked ? 1 : 0; return(comp); }
public void ShowDataToControl(int ID, string temUnit, string pressureUnit, string stressUnit, string thicknessUnit, string corrosionUnit) { RW_MATERIAL_BUS BUS = new RW_MATERIAL_BUS(); RW_MATERIAL obj = BUS.getData(ID); RW_INPUT_CA_TANK_BUS busTank = new RW_INPUT_CA_TANK_BUS(); BUS_UNITS convUnit = new BUS_UNITS(); float tank = busTank.getProductionCost(ID); switch (temUnit) { case "DEG_C": txtMaxDesignTemperature.Text = obj.DesignTemperature.ToString(); txtMinDesignTemperature.Text = obj.MinDesignTemperature.ToString(); txtReferenceTemperature.Text = obj.ReferenceTemperature.ToString(); break; case "DEG_F": txtMaxDesignTemperature.Text = (convUnit.CelToFah(obj.DesignTemperature)).ToString(); txtMinDesignTemperature.Text = (convUnit.CelToFah(obj.MinDesignTemperature)).ToString(); txtReferenceTemperature.Text = (convUnit.CelToFah(obj.ReferenceTemperature)).ToString(); break; case "K": txtMaxDesignTemperature.Text = (convUnit.CelToKenvin(obj.DesignTemperature)).ToString(); txtMinDesignTemperature.Text = (convUnit.CelToKenvin(obj.MinDesignTemperature)).ToString(); txtReferenceTemperature.Text = (convUnit.CelToKenvin(obj.ReferenceTemperature)).ToString(); break; } switch (pressureUnit) { case "psi": txtDesignPressure.Text = obj.DesignPressure.ToString(); break; case "KSI": txtDesignPressure.Text = (obj.DesignPressure / convUnit.ksi).ToString(); break; case "bar": txtDesignPressure.Text = (obj.DesignPressure / convUnit.bar).ToString(); break; case "MPa": txtDesignPressure.Text = (obj.DesignPressure / convUnit.MPa).ToString(); break; case "N/m2": txtDesignPressure.Text = (obj.DesignPressure / convUnit.NpM2).ToString(); break; case "N/cm2": txtDesignPressure.Text = (obj.DesignPressure / convUnit.NpCM2).ToString(); break; } switch (thicknessUnit) { case "mm": txtBrittleFracture.Text = obj.BrittleFractureThickness.ToString(); break; case "in": txtBrittleFracture.Text = (obj.BrittleFractureThickness / convUnit.inch).ToString(); break; case "m": txtBrittleFracture.Text = (obj.BrittleFractureThickness / convUnit.meter).ToString(); break; } switch (corrosionUnit) { case "mm": txtCorrosionAllowance.Text = obj.CorrosionAllowance.ToString(); break; case "mil": txtCorrosionAllowance.Text = (obj.CorrosionAllowance / convUnit.mil).ToString(); break; } switch (stressUnit) { case "psi": txtAllowableStress.Text = obj.AllowableStress.ToString(); break; case "KSI": txtAllowableStress.Text = (obj.AllowableStress / convUnit.ksi).ToString(); break; case "bar": txtAllowableStress.Text = (obj.AllowableStress / convUnit.bar).ToString(); break; case "MPa": txtAllowableStress.Text = (obj.AllowableStress / convUnit.MPa).ToString(); break; case "N/m2": txtAllowableStress.Text = (obj.AllowableStress / convUnit.NpM2).ToString(); break; case "N/cm2": txtAllowableStress.Text = (obj.AllowableStress / convUnit.NpCM2).ToString(); break; } txtMaterial.Text = obj.MaterialName; for (int i = 0; i < itemsSulfurContent.Length; i++) { if (obj.SulfurContent == itemsSulfurContent[i]) { cbSulfurContent.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsHeatTreatment.Length; i++) { if (obj.HeatTreatment == itemsHeatTreatment[i]) { cbHeatTreatment.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsPTAMterial.Length; i++) { if (obj.PTAMaterialCode == itemsPTAMterial[i]) { cbPTAMaterialGrade.SelectedIndex = i + 1; break; } } chkIsPTASeverity.Checked = Convert.ToBoolean(obj.IsPTA); chkAusteniticSteel.Checked = Convert.ToBoolean(obj.Austenitic); chkCarbonLowAlloySteel.Checked = Convert.ToBoolean(obj.CarbonLowAlloy); chkNickelAlloy.Checked = Convert.ToBoolean(obj.NickelBased); chkChromium.Checked = Convert.ToBoolean(obj.ChromeMoreEqual12); txtMaterialCostFactor.Text = obj.CostFactor.ToString(); txtProductionCost.Text = tank.ToString(); }
public RW_COMPONENT getData(int ID, string diameter, string thickness, string corrosionRate) // save vao base { RW_COMPONENT comp = new RW_COMPONENT(); RW_ASSESSMENT_BUS assBus = new RW_ASSESSMENT_BUS(); BUS_UNITS convUnit = new BUS_UNITS(); comp.ID = ID; // mai if (diameter == "mm") { comp.NominalDiameter = txtNominalDiameter.Text != "" ? float.Parse(txtNominalDiameter.Text) : 0; } else if (diameter == "in") { comp.NominalDiameter = txtNominalDiameter.Text != "" ? (float)(double.Parse(txtNominalDiameter.Text) * convUnit.inch) : 0; // in sang mm } else { comp.NominalDiameter = txtNominalDiameter.Text != "" ? float.Parse(txtNominalDiameter.Text) * 1000 : 0; // m sang mm } if (thickness == "mm") { comp.NominalThickness = txtNominalThickness.Text != "" ? float.Parse(txtNominalThickness.Text) : 0; comp.CurrentThickness = txtCurrentThickness.Text != "" ? float.Parse(txtCurrentThickness.Text) : 0; comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? float.Parse(txtMinRequiredThickness.Text) : 0; } else if (thickness == "in") { comp.NominalThickness = txtNominalThickness.Text != "" ? (float)(double.Parse(txtNominalThickness.Text) * convUnit.inch) : 0; // in sang mm comp.CurrentThickness = txtCurrentThickness.Text != "" ? (float)(double.Parse(txtCurrentThickness.Text) * convUnit.inch) : 0; // in sang mm comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? (float)(double.Parse(txtMinRequiredThickness.Text) * convUnit.inch) : 0; // in sang mm } else { comp.NominalThickness = txtNominalThickness.Text != "" ? (float)(double.Parse(txtNominalThickness.Text) * 1000) : 0; // m sang mm comp.CurrentThickness = txtCurrentThickness.Text != "" ? (float)(double.Parse(txtCurrentThickness.Text) * 1000) : 0; // m sang mm comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? (float)(double.Parse(txtMinRequiredThickness.Text) * 1000) : 0; // m sang mm } if (corrosionRate == "mm/yr") { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)double.Parse(txtCurrentCorrosionRate.Text) : 0; } else { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)(double.Parse(txtCurrentCorrosionRate.Text) * convUnit.mil) : 0; // mil/yr sang mm/yr } // end mai comp.BranchDiameter = cbBranchDiameter.Text; comp.BranchJointType = cbJointTypeBranch.Text; comp.BrinnelHardness = cbMaxBrillnessHardness.Text; comp.CracksPresent = chkPresenceCracks.Checked ? 1 : 0; comp.ComplexityProtrusion = cbComplexityProtrusion.Text; comp.ChemicalInjection = chkPresenceInjectionMixPoint.Checked ? 1 : 0; comp.HighlyInjectionInsp = chkHighlyEffectiveMixPoint.Checked ? 1 : 0; comp.CorrectiveAction = cbCorrectiveAction.Text; comp.CyclicLoadingWitin15_25m = cbCyclicLoading.Text; comp.DamageFoundInspection = chkDamageFoundDuringInspection.Checked ? 1 : 0; comp.DeltaFATT = txtDeltaFATT.Text != "" ? float.Parse(txtDeltaFATT.Text) : 0; comp.NumberPipeFittings = cbNumberFittingPipe.Text; comp.PipeCondition = cbPipeCondition.Text; comp.PreviousFailures = cbPreviousFailures.Text; comp.ShakingAmount = cbAmountShakingPipe.Text; comp.ShakingDetected = chkVisibleAudible.Checked ? 1 : 0; comp.ShakingTime = cbAccumalatedTimeShakingPipe.Text; comp.TrampElements = chkTrampElements.Checked ? 1 : 0; //comp.ShellHeight cua shell //comp.ReleasePreventionBarrier = cua tank //comp.ConcreteFoundation = cua tank bottom //comp.SeverityOfVibration cua tank return(comp); }
public RW_COMPONENT getData(int ID, string diameter, string thickness, string corrosionRate, string volumeUnit, string stressUnit) // save vao base { RW_COMPONENT comp = new RW_COMPONENT(); RW_ASSESSMENT_BUS assBus = new RW_ASSESSMENT_BUS(); BUS_UNITS convUnit = new BUS_UNITS(); comp.ID = ID; // Generic Properties if (diameter == "MM") { comp.NominalDiameter = txtNominalDiameter.Text != "" ? float.Parse(txtNominalDiameter.Text) : 0; } else if (diameter == "INCH") { comp.NominalDiameter = txtNominalDiameter.Text != "" ? (float)(double.Parse(txtNominalDiameter.Text) * convUnit.inch) : 0; // in sang mm } if (thickness == "MM") { comp.CurrentThickness = txtCurrentThickness.Text != "" ? float.Parse(txtCurrentThickness.Text) : 0; comp.NominalThickness = txtNominalThickness.Text != "" ? float.Parse(txtNominalThickness.Text) : 0; comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? float.Parse(txtMinRequiredThickness.Text) : 0; comp.BrittleFractureThickness = txtBrittleFractureThickness.Text != "" ? float.Parse(txtBrittleFractureThickness.Text) : 0; comp.StructuralThickness = txtStructuralThickness.Text != "" ? float.Parse(txtStructuralThickness.Text) : 0; } else if (thickness == "INCH") { comp.CurrentThickness = txtCurrentThickness.Text != "" ? (float)(double.Parse(txtCurrentThickness.Text) * convUnit.inch) : 0; comp.NominalThickness = txtNominalThickness.Text != "" ? (float)(double.Parse(txtNominalThickness.Text) * convUnit.inch) : 0; // in sang mm comp.MinReqThickness = txtMinRequiredThickness.Text != "" ? (float)(double.Parse(txtMinRequiredThickness.Text) * convUnit.inch) : 0; // in sang mm comp.BrittleFractureThickness = txtBrittleFractureThickness.Text != "" ? (float)(double.Parse(txtBrittleFractureThickness.Text) * convUnit.inch) : 0; comp.StructuralThickness = txtStructuralThickness.Text != "" ? (float)(double.Parse(txtStructuralThickness.Text) * convUnit.inch) : 0; } if (corrosionRate == "MMYR") { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)double.Parse(txtCurrentCorrosionRate.Text) : 0; } else { comp.CurrentCorrosionRate = txtCurrentCorrosionRate.Text != "" ? (float)(double.Parse(txtCurrentCorrosionRate.Text) * convUnit.mil) : 0; // mil/yr sang mm/yr } if (volumeUnit == "M3") { comp.ComponentVolume = txtComponentVolume.Text != "" ? float.Parse(txtComponentVolume.Text) : 0; } else { comp.ComponentVolume = txtComponentVolume.Text != "" ? (float)(double.Parse(txtComponentVolume.Text) * convUnit.ft3) : 0; } if (stressUnit == "KSI") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.ksi) : 0; } else if (stressUnit == "PSI") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.psi) : 0; } else if (stressUnit == "MPA") { comp.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) : 0; } else if (stressUnit == "BAR") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.bar) :0; } else if (stressUnit == "NM2") { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.NpM2) :0; } else { comp.AllowableStress = txtAllowableStress.Text != "" ? (float)(double.Parse(txtAllowableStress.Text) * convUnit.NpCM2) : 0; } comp.WeldJointEfficiency = txtWeldJointEfficiency.Text != "" ? float.Parse(txtWeldJointEfficiency.Text) : 0; comp.ConfidenceCorrosionRate = cbConfidenceCorrosionRate.Text; comp.CracksPresent = chkPresenceCracks.Checked ? 1 : 0; comp.MinimumStructuralThicknessGoverns = chkMinimumStructuralThicknessGoverns.Checked ? 1 : 0; //Governing Brittle Fracture Damage Factor comp.DeltaFATT = txtDeltaFATT.Text != "" ? float.Parse(txtDeltaFATT.Text) : 0; comp.FabricatedSteel = chkFabricatedSteel.Checked ? 1 : 0; comp.EquipmentSatisfied = chkEquipmentSatisfied.Checked ? 1 : 0; comp.NominalOperatingConditions = chkNominalOperating.Checked ? 1 : 0; comp.CETGreaterOrEqual = chkCETGreaterOrEqual.Checked ? 1 : 0; comp.CyclicServiceFatigueVibration = chkCyclicServiceFatigueVibration.Checked ? 1 : 0; comp.EquipmentCircuitShock = chkEquipmentCircuitShock.Checked ? 1 : 0; //High Temperatur Hydrogen Attack Damage Factor comp.HTHADamageObserved = chkHTHADamageObserved.Checked ? 1 : 0; //Governing Stress Corrosion Cracking Damage Factor comp.BrinnelHardness = cbMaxBrillnessHardness.Text; //Governing External Damage Factor comp.ComplexityProtrusion = cbComplexityProtrusion.Text; //Fatigue Damage Factor comp.BranchDiameter = cbBranchDiameter.Text; comp.BranchJointType = cbJointTypeBranch.Text; comp.CorrectiveAction = cbCorrectiveAction.Text; comp.CyclicLoadingWitin15_25m = cbCyclicLoading.Text; comp.NumberPipeFittings = cbNumberFittingPipe.Text; comp.PipeCondition = cbPipeCondition.Text; comp.PreviousFailures = cbPreviousFailures.Text; comp.ShakingAmount = cbAmountShakingPipe.Text; comp.ShakingDetected = chkVisibleAudible.Checked ? 1 : 0; comp.ShakingTime = cbAccumalatedTimeShakingPipe.Text; return(comp); }
public void ShowDatatoControl(int ID, string diameter, string thickness, string corrosionRate, string volumeUnit, string stressUnit) { RW_COMPONENT_BUS comBus = new RW_COMPONENT_BUS(); BUS_UNITS convUnit = new BUS_UNITS(); List <RW_COMPONENT> listComponent = comBus.getDataSource(); foreach (RW_COMPONENT comp in listComponent) { if (comp.ID == ID) { // mai if (diameter == "INCH") { txtNominalDiameter.Text = (comp.NominalDiameter / convUnit.inch).ToString(); // converst mm sang in } else if (diameter == "MM") { txtNominalDiameter.Text = comp.NominalDiameter.ToString(); // giữ nguyên } if (thickness == "MM") { txtNominalThickness.Text = comp.NominalThickness.ToString(); //giữ nguyên txtMinRequiredThickness.Text = comp.MinReqThickness.ToString(); // giữ nguyên txtCurrentThickness.Text = comp.CurrentThickness.ToString(); txtBrittleFractureThickness.Text = comp.BrittleFractureThickness.ToString(); txtStructuralThickness.Text = comp.StructuralThickness.ToString(); } else if (thickness == "INCH") { txtNominalThickness.Text = (comp.NominalThickness / convUnit.inch).ToString(); //converst mm sang in txtMinRequiredThickness.Text = (comp.MinReqThickness / convUnit.inch).ToString(); //convert mm sang in txtCurrentThickness.Text = (comp.CurrentThickness / convUnit.inch).ToString(); txtBrittleFractureThickness.Text = (comp.BrittleFractureThickness / convUnit.inch).ToString(); txtStructuralThickness.Text = (comp.StructuralThickness / convUnit.inch).ToString(); } if (corrosionRate == "MMYR") { txtCurrentCorrosionRate.Text = comp.CurrentCorrosionRate.ToString(); // converst mm sang mm } else { txtCurrentCorrosionRate.Text = (comp.CurrentCorrosionRate / convUnit.mil).ToString(); // converst mm sang mil } if (stressUnit == "KSI") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.ksi).ToString(); } else if (stressUnit == "PSI") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.psi).ToString(); } else if (stressUnit == "MPA") { txtAllowableStress.Text = (comp.AllowableStress).ToString(); } else if (stressUnit == "BAR") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.bar).ToString(); } else if (stressUnit == "NM2") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.NpM2).ToString(); } else { txtAllowableStress.Text = (comp.AllowableStress / convUnit.NpCM2).ToString(); } if (volumeUnit == "M3") { txtComponentVolume.Text = comp.ComponentVolume.ToString(); } else { txtComponentVolume.Text = (comp.ComponentVolume / convUnit.ft3).ToString(); } txtWeldJointEfficiency.Text = comp.WeldJointEfficiency.ToString(); //// end mai chkMinimumStructuralThicknessGoverns.Checked = comp.MinimumStructuralThicknessGoverns == 1 ? true : false; chkPresenceCracks.Checked = comp.CracksPresent == 1 ? true : false; txtDeltaFATT.Text = comp.DeltaFATT.ToString(); chkVisibleAudible.Checked = comp.ShakingDetected == 1 ? true : false; chkFabricatedSteel.Checked = comp.FabricatedSteel == 1 ? true : false; chkEquipmentSatisfied.Checked = comp.EquipmentSatisfied == 1 ? true : false; chkNominalOperating.Checked = comp.NominalOperatingConditions == 1 ? true : false; chkCETGreaterOrEqual.Checked = comp.CETGreaterOrEqual == 1 ? true : false; chkCyclicServiceFatigueVibration.Checked = comp.CyclicServiceFatigueVibration == 1 ? true : false; chkEquipmentCircuitShock.Checked = comp.EquipmentCircuitShock == 1 ? true : false; chkHTHADamageObserved.Checked = comp.HTHADamageObserved == 1 ? true : false; for (int i = 0; i < itemsConfidenceCorrosionRate.Length; i++) { if (comp.ConfidenceCorrosionRate == itemsConfidenceCorrosionRate[i]) { cbConfidenceCorrosionRate.SelectedIndex = i + 1; } } for (int i = 0; i < itemsAccumulatedTimeShaking.Length; i++) { if (comp.ShakingTime == itemsAccumulatedTimeShaking[i]) { cbAccumalatedTimeShakingPipe.SelectedIndex = i + 1; } } for (int i = 0; i < itemsCorrectiveAction.Length; i++) { if (comp.CorrectiveAction == itemsCorrectiveAction[i]) { cbCorrectiveAction.SelectedIndex = i + 1; } } for (int i = 0; i < itemsCyclicLoading.Length; i++) { if (comp.CyclicLoadingWitin15_25m == itemsCyclicLoading[i]) { cbCyclicLoading.SelectedIndex = i + 1; } } for (int i = 0; i < itemsBranchDiameter.Length; i++) { if (comp.BranchDiameter == itemsBranchDiameter[i]) { cbBranchDiameter.SelectedIndex = i + 1; } } for (int i = 0; i < itemsBranchJointType.Length; i++) { if (comp.BranchJointType == itemsBranchJointType[i]) { cbJointTypeBranch.SelectedIndex = i + 1; } } for (int i = 0; i < itemsBrinnellHardness.Length; i++) { if (comp.BrinnelHardness == itemsBrinnellHardness[i]) { cbMaxBrillnessHardness.SelectedIndex = i + 1; } } for (int i = 0; i < itemsNumberPipeFittings.Length; i++) { if (comp.NumberPipeFittings == itemsNumberPipeFittings[i]) { cbNumberFittingPipe.SelectedIndex = i + 1; } } for (int i = 0; i < itemsPipeCondition.Length; i++) { if (comp.PipeCondition == itemsPipeCondition[i]) { cbPipeCondition.SelectedIndex = i + 1; } } for (int i = 0; i < itemsPreviousFailure.Length; i++) { if (comp.PreviousFailures == itemsPreviousFailure[i]) { cbPreviousFailures.SelectedIndex = i + 1; } } for (int i = 0; i < itemsAmountShaking.Length; i++) { if (comp.ShakingAmount == itemsAmountShaking[i]) { cbAmountShakingPipe.SelectedIndex = i + 1; } } for (int i = 0; i < itemsComplexityProtrusion.Length; i++) { if (comp.ComplexityProtrusion == itemsComplexityProtrusion[i]) { cbComplexityProtrusion.SelectedIndex = i + 1; } } } } }
public void ShowDatatoControl(int ID, string corrosionRate, string thicknessUnit) { RW_COATING_BUS BUS = new RW_COATING_BUS(); RW_COATING coat = BUS.getData(ID); BUS_UNITS convUnit = new BUS_UNITS(); String[] extQuality = { "No coating or poor quality", "Medium coating quality", "High coating quality" }; String[] inType = { "Organic - High Quality", "Organic - Medium Quality", "Organic - Low Quality", "Castable refractory", "Strip lined alloy", "Castable refractory severe condition", "Glass lined", "Acid Brick", "Fibreglass" }; String[] inCon = { "Good", "Average", "Poor", "Unknown" }; String[] extType = { "Foam Glass", "Pearlite", "Fibreglass", "Mineral Wool", "Calcium Silicate", "Asbestos" }; String[] isuCon = { "Above average", "Average", "Below average" }; if (coat.ExternalCoating == 1) { chkExternalCoat.Checked = true; } else { chkExternalCoat.Checked = false; } if (coat.ExternalInsulation == 1) { chkExternalIsulation.Checked = true; } else { chkExternalIsulation.Checked = false; } if (coat.InternalCladding == 1) { chkInternalCladding.Checked = true; } else { chkInternalCladding.Checked = false; } if (coat.InternalCoating == 1) { chkInternalCoat.Checked = true; } else { chkInternalCoat.Checked = false; } if (coat.InternalLining == 1) { chkInternalLining.Checked = true; } else { chkInternalLining.Checked = false; } dateExternalCoating.DateTime = coat.ExternalCoatingDate; for (int i = 0; i < extQuality.Length; i++) { if (coat.ExternalCoatingQuality == extQuality[i]) { cbExternalCoatQuality.SelectedIndex = i; break; } } for (int i = 0; i < extType.Length; i++) { if (coat.ExternalInsulationType == extType[i]) { cbExternalIsulation.SelectedIndex = i + 1; break; } } for (int i = 0; i < inCon.Length; i++) { if (coat.InternalLinerCondition == inCon[i]) { cbInternalLinerCondition.SelectedIndex = i + 1; break; } } if (coat.InsulationContainsChloride == 1) { chkInsulationContainsChlorides.Checked = true; } else { chkInsulationContainsChlorides.Checked = false; } for (int i = 0; i < inType.Length; i++) { if (coat.InternalLinerType == inType[i]) { cbInternalLinerType.SelectedIndex = i + 1; break; } } if (thicknessUnit == "INCH") { txtCladdingThickness.Text = (coat.CladdingThickness / convUnit.inch).ToString(); } else { txtCladdingThickness.Text = coat.CladdingThickness.ToString(); } if (corrosionRate == "MMYR") { txtCladdingCorrosionRate.Text = coat.CladdingCorrosionRate.ToString(); } else { txtCladdingCorrosionRate.Text = (coat.CladdingCorrosionRate / convUnit.mil).ToString(); } if (coat.SupportConfigNotAllowCoatingMaint == 1) { chkSupport.Checked = true; } else { chkSupport.Checked = false; } for (int i = 0; i < isuCon.Length; i++) { if (coat.InsulationCondition == isuCon[i]) { cbIsulationCondition.SelectedIndex = i + 1; break; } } }
private void ShowDataToControl(int ID, string diameter, string thickness, string corrosionRate) { RW_COMPONENT_BUS busCom = new RW_COMPONENT_BUS(); RW_COMPONENT com = busCom.getData(ID); BUS_UNITS convUnit = new BUS_UNITS(); if (diameter == "in") { txtTankDiameter.Text = (com.NominalDiameter / convUnit.inch).ToString(); // converst mm sang in } else if (diameter == "mm") { txtTankDiameter.Text = com.NominalDiameter.ToString(); // giữ nguyên } else { txtTankDiameter.Text = (com.NominalDiameter / 1000).ToString(); // converst mm sang m } if (thickness == "mm") { txtNominalThickness.Text = com.NominalThickness.ToString(); //giữ nguyên txtCurrentThickness.Text = com.CurrentThickness.ToString(); // giữ nguyên txtMinRequiredThickness.Text = com.MinReqThickness.ToString(); // giữ nguyên } else if (thickness == "in") { txtNominalThickness.Text = (com.NominalThickness / convUnit.inch).ToString(); //converst mm sang in txtCurrentThickness.Text = (com.CurrentThickness / convUnit.inch).ToString(); //converst mm sang in txtMinRequiredThickness.Text = (com.MinReqThickness / convUnit.inch).ToString(); //converst mm sang in } else { txtNominalThickness.Text = (com.NominalThickness / 1000).ToString(); // converst mm sang m txtCurrentThickness.Text = (com.CurrentThickness / 1000).ToString(); // converst mm sang m txtMinRequiredThickness.Text = (com.MinReqThickness / 1000).ToString(); // converst mm sang m } if (corrosionRate == "mm/yr") { txtCurrentCorrosionRate.Text = com.CurrentCorrosionRate.ToString(); // converst mm sang mm } else { txtCurrentCorrosionRate.Text = (com.CurrentCorrosionRate / convUnit.mil).ToString(); // converst mm sang mil } txtShellCourseHeight.Text = com.ShellHeight.ToString(); chkDamageFoundDuringInspection.Checked = com.DamageFoundInspection == 1 ? true : false; chkConcreteAsphalt.Checked = com.ConcreteFoundation == 1 ? true : false; chkPresenceCracks.Checked = com.CracksPresent == 1 ? true : false; chkPreventionBarrier.Checked = com.ReleasePreventionBarrier == 1 ? true : false; chkTrampElements.Checked = com.TrampElements == 1 ? true : false; for (int i = 0; i < itemsBrinnellHardness.Length; i++) { if (itemsBrinnellHardness[i] == com.BrinnelHardness) { cbMaxBrillnessHardness.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsComplexityProtrusion.Length; i++) { if (itemsComplexityProtrusion[i] == com.ComplexityProtrusion) { cbComplexityProtrusion.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsSeverity.Length; i++) { if (itemsSeverity[i] == com.SeverityOfVibration) { cbSeverityVibration.SelectedIndex = i + 1; break; } } }
public RW_MATERIAL getData(int ID, string temUnit, string pressureUnit, string corrosionUnit) { RW_MATERIAL ma = new RW_MATERIAL(); BUS_UNITS convUnit = new BUS_UNITS(); ma.ID = ID; ma.MaterialName = txtMaterial.Text; switch (temUnit) { case "DEG_C": ma.DesignTemperature = txtMaxDesignTemperature.Text != "" ? float.Parse(txtMaxDesignTemperature.Text) : 0; ma.MinDesignTemperature = txtMinDesignTemperature.Text != "" ? float.Parse(txtMinDesignTemperature.Text) : 0; ma.ReferenceTemperature = txtReferenceTemperature.Text != "" ? float.Parse(txtReferenceTemperature.Text) : 0; break; case "DEG_F": ma.DesignTemperature = txtMaxDesignTemperature.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtMaxDesignTemperature.Text)) : 0; ma.MinDesignTemperature = txtMinDesignTemperature.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtMinDesignTemperature.Text)) : 0; ma.ReferenceTemperature = txtReferenceTemperature.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtReferenceTemperature.Text)) : 0; break; case "K": ma.DesignTemperature = txtMaxDesignTemperature.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtMaxDesignTemperature.Text)) : 0; ma.MinDesignTemperature = txtMinDesignTemperature.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtMinDesignTemperature.Text)) : 0; ma.ReferenceTemperature = txtReferenceTemperature.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtReferenceTemperature.Text)) : 0; break; } switch (pressureUnit) { case "PSI": ma.YieldStrength = txtYieldStrength.Text != "" ? float.Parse(txtYieldStrength.Text) * (float)convUnit.psi : 0; ma.TensileStrength = txtTensileStrength.Text != "" ? float.Parse(txtTensileStrength.Text) * (float)convUnit.psi : 0; ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.psi : 0; break; case "KSI": ma.YieldStrength = txtYieldStrength.Text != "" ? float.Parse(txtYieldStrength.Text) * (float)convUnit.ksi : 0; ma.TensileStrength = txtTensileStrength.Text != "" ? float.Parse(txtTensileStrength.Text) * (float)convUnit.ksi : 0; ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.ksi : 0; break; case "BAR": ma.YieldStrength = txtYieldStrength.Text != "" ? float.Parse(txtYieldStrength.Text) * (float)convUnit.bar : 0; ma.TensileStrength = txtTensileStrength.Text != "" ? float.Parse(txtTensileStrength.Text) * (float)convUnit.bar : 0; ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.bar : 0; break; case "MPA": ma.YieldStrength = txtYieldStrength.Text != "" ? float.Parse(txtYieldStrength.Text) : 0; ma.TensileStrength = txtTensileStrength.Text != "" ? float.Parse(txtTensileStrength.Text) : 0; ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) : 0; break; case "NM2": ma.YieldStrength = txtYieldStrength.Text != "" ? float.Parse(txtYieldStrength.Text) * (float)convUnit.NpM2 : 0; ma.TensileStrength = txtTensileStrength.Text != "" ? float.Parse(txtTensileStrength.Text) * (float)convUnit.NpM2 : 0; ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.NpM2 : 0; break; case "NCM2": ma.YieldStrength = txtYieldStrength.Text != "" ? float.Parse(txtYieldStrength.Text) * (float)convUnit.NpCM2 : 0; ma.TensileStrength = txtTensileStrength.Text != "" ? float.Parse(txtTensileStrength.Text) * (float)convUnit.NpCM2 : 0; ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.NpCM2 : 0; break; } switch (corrosionUnit) { case "mm": ma.CorrosionAllowance = txtCorrosionAllowance.Text != "" ? float.Parse(txtCorrosionAllowance.Text) : 0; break; case "mil": ma.CorrosionAllowance = txtCorrosionAllowance.Text != "" ? float.Parse(txtCorrosionAllowance.Text) * (float)convUnit.mil : 0; break; } ma.SulfurContent = cbSulfurContent.Text; ma.PTAMaterialCode = cbPTAMaterialGrade.Text; ma.IsPTA = chkIsPTASeverity.Checked ? 1 : 0; ma.Austenitic = chkAusteniticSteel.Checked ? 1 : 0; ma.CarbonLowAlloy = chkCarbonLowAlloySteel.Checked ? 1 : 0; ma.NickelBased = chkNickelAlloy.Checked ? 1 : 0; ma.ChromeMoreEqual12 = chkChromium.Checked ? 1 : 0; ma.CostFactor = txtMaterialCostFactor.Text != "" ? float.Parse(txtMaterialCostFactor.Text) : 0; return(ma); }
public RW_MATERIAL getData(int ID, string temUnit, string pressureUnit, string stressUnit, string thicknessUnit, string corrosionUnit) { RW_MATERIAL ma = new RW_MATERIAL(); BUS_UNITS convUnit = new BUS_UNITS(); ma.ID = ID; ma.MaterialName = txtMaterial.Text; switch (temUnit) { case "DEG_C": ma.DesignTemperature = txtMaxDesignTemperature.Text != "" ? float.Parse(txtMaxDesignTemperature.Text) : 0; ma.MinDesignTemperature = txtMinDesignTemperature.Text != "" ? float.Parse(txtMinDesignTemperature.Text) : 0; ma.ReferenceTemperature = txtReferenceTemperature.Text != "" ? float.Parse(txtReferenceTemperature.Text) : 0; break; case "DEG_F": ma.DesignTemperature = txtMaxDesignTemperature.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtMaxDesignTemperature.Text)) : 0; ma.MinDesignTemperature = txtMinDesignTemperature.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtMinDesignTemperature.Text)) : 0; ma.ReferenceTemperature = txtReferenceTemperature.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtReferenceTemperature.Text)) : 0; break; case "K": ma.DesignTemperature = txtMaxDesignTemperature.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtMaxDesignTemperature.Text)) : 0; ma.MinDesignTemperature = txtMinDesignTemperature.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtMinDesignTemperature.Text)) : 0; ma.ReferenceTemperature = txtReferenceTemperature.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtReferenceTemperature.Text)) : 0; break; } switch (pressureUnit) { case "psi": ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) : 0; break; case "KSI": ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.ksi : 0; break; case "bar": ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.bar : 0; break; case "MPa": ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.MPa : 0; break; case "N/m2": ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.NpM2 : 0; break; case "N/cm2": ma.DesignPressure = txtDesignPressure.Text != "" ? float.Parse(txtDesignPressure.Text) * (float)convUnit.NpCM2 : 0; break; } switch (stressUnit) { case "psi": ma.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) : 0; break; case "KSI": ma.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) * (float)convUnit.ksi : 0; break; case "bar": ma.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) * (float)convUnit.bar : 0; break; case "MPa": ma.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) * (float)convUnit.MPa : 0; break; case "N/m2": ma.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) * (float)convUnit.NpM2 : 0; break; case "N/cm2": ma.AllowableStress = txtAllowableStress.Text != "" ? float.Parse(txtAllowableStress.Text) * (float)convUnit.NpCM2 : 0; break; } switch (corrosionUnit) { case "mm": ma.CorrosionAllowance = txtCorrosionAllowance.Text != "" ? float.Parse(txtCorrosionAllowance.Text) : 0; break; case "mil": ma.CorrosionAllowance = txtCorrosionAllowance.Text != "" ? float.Parse(txtCorrosionAllowance.Text) * (float)convUnit.mil : 0; break; } switch (thicknessUnit) { case "mm": ma.BrittleFractureThickness = txtBrittleFracture.Text != "" ? float.Parse(txtBrittleFracture.Text) : 0; break; case "in": ma.BrittleFractureThickness = txtBrittleFracture.Text != "" ? float.Parse(txtBrittleFracture.Text) * (float)convUnit.inch : 0; break; case "m": ma.BrittleFractureThickness = txtBrittleFracture.Text != "" ? float.Parse(txtBrittleFracture.Text) * (float)convUnit.meter : 0; break; } ma.SulfurContent = cbSulfurContent.Text; ma.HeatTreatment = cbHeatTreatment.Text; ma.PTAMaterialCode = cbPTAMaterialGrade.Text; ma.IsPTA = chkIsPTASeverity.Checked ? 1 : 0; ma.Austenitic = chkAusteniticSteel.Checked ? 1 : 0; ma.CarbonLowAlloy = chkCarbonLowAlloySteel.Checked ? 1 : 0; ma.NickelBased = chkNickelAlloy.Checked ? 1 : 0; ma.ChromeMoreEqual12 = chkChromium.Checked ? 1 : 0; ma.CostFactor = txtMaterialCostFactor.Text != "" ? float.Parse(txtMaterialCostFactor.Text) : 0; return(ma); }
public void ShowDatatoControl(int ID, string diameter, string thickness, string corrosionRate) { RW_COMPONENT_BUS comBus = new RW_COMPONENT_BUS(); BUS_UNITS convUnit = new BUS_UNITS(); List <RW_COMPONENT> listComponent = comBus.getDataSource(); foreach (RW_COMPONENT comp in listComponent) { if (comp.ID == ID) { ////// mai if (diameter == "in") { txtNominalDiameter.Text = (comp.NominalDiameter / convUnit.inch).ToString(); // converst mm sang in } else if (diameter == "mm") { txtNominalDiameter.Text = comp.NominalDiameter.ToString(); // giữ nguyên } else { txtNominalDiameter.Text = (comp.NominalDiameter / 1000).ToString(); // converst mm sang m } if (thickness == "mm") { txtNominalThickness.Text = comp.NominalThickness.ToString(); //giữ nguyên txtCurrentThickness.Text = comp.CurrentThickness.ToString(); // giữ nguyên txtMinRequiredThickness.Text = comp.MinReqThickness.ToString(); // giữ nguyên } else if (thickness == "in") { txtNominalThickness.Text = (comp.NominalThickness / convUnit.inch).ToString(); //converst mm sang in txtCurrentThickness.Text = (comp.CurrentThickness / convUnit.inch).ToString(); //converst mm sang in txtMinRequiredThickness.Text = (comp.MinReqThickness / convUnit.inch).ToString(); //converst mm sang in } else { txtNominalThickness.Text = (comp.NominalThickness / 1000).ToString(); // converst mm sang m txtCurrentThickness.Text = (comp.CurrentThickness / 1000).ToString(); // converst mm sang m txtMinRequiredThickness.Text = (comp.MinReqThickness / 1000).ToString(); // converst mm sang m } if (corrosionRate == "mm/yr") { txtCurrentCorrosionRate.Text = comp.CurrentCorrosionRate.ToString(); // converst mm sang mm } else { txtCurrentCorrosionRate.Text = (comp.CurrentCorrosionRate / convUnit.mil).ToString(); // converst mm sang mil } //// end mai chkPresenceCracks.Checked = comp.CracksPresent == 1 ? true : false; chkPresenceInjectionMixPoint.Checked = comp.ChemicalInjection == 1 ? true : false; chkHighlyEffectiveMixPoint.Checked = comp.HighlyInjectionInsp == 1 ? true : false; chkDamageFoundDuringInspection.Checked = comp.DamageFoundInspection == 1 ? true : false; txtDeltaFATT.Text = comp.DeltaFATT.ToString(); chkVisibleAudible.Checked = comp.ShakingDetected == 1 ? true : false; chkTrampElements.Checked = comp.TrampElements == 1 ? true : false; for (int i = 0; i < itemsAccumulatedTimeShaking.Length; i++) { if (comp.ShakingTime == itemsAccumulatedTimeShaking[i]) { cbAccumalatedTimeShakingPipe.SelectedIndex = i + 1; } } for (int i = 0; i < itemsCorrectiveAction.Length; i++) { if (comp.CorrectiveAction == itemsCorrectiveAction[i]) { cbCorrectiveAction.SelectedIndex = i + 1; } } for (int i = 0; i < itemsCyclicLoading.Length; i++) { if (comp.CyclicLoadingWitin15_25m == itemsCyclicLoading[i]) { cbCyclicLoading.SelectedIndex = i + 1; } } for (int i = 0; i < itemsBranchDiameter.Length; i++) { if (comp.BranchDiameter == itemsBranchDiameter[i]) { cbBranchDiameter.SelectedIndex = i + 1; } } for (int i = 0; i < itemsBranchJointType.Length; i++) { if (comp.BranchJointType == itemsBranchJointType[i]) { cbJointTypeBranch.SelectedIndex = i + 1; } } for (int i = 0; i < itemsBrinnellHardness.Length; i++) { if (comp.BrinnelHardness == itemsBrinnellHardness[i]) { cbMaxBrillnessHardness.SelectedIndex = i + 1; } } for (int i = 0; i < itemsNumberPipeFittings.Length; i++) { if (comp.NumberPipeFittings == itemsNumberPipeFittings[i]) { cbNumberFittingPipe.SelectedIndex = i + 1; } } for (int i = 0; i < itemsPipeCondition.Length; i++) { if (comp.PipeCondition == itemsPipeCondition[i]) { cbPipeCondition.SelectedIndex = i + 1; } } for (int i = 0; i < itemsPreviousFailure.Length; i++) { if (comp.PreviousFailures == itemsPreviousFailure[i]) { cbPreviousFailures.SelectedIndex = i + 1; } } for (int i = 0; i < itemsAmountShaking.Length; i++) { if (comp.ShakingAmount == itemsAmountShaking[i]) { cbAmountShakingPipe.SelectedIndex = i + 1; } } for (int i = 0; i < itemsProtrusionComplexity.Length; i++) { if (comp.ComplexityProtrusion == itemsProtrusionComplexity[i]) { cbComplexityProtrusion.SelectedIndex = i + 1; } } } } }
public RW_STREAM getDataforStream(int ID, string temperatureUnit, string pressureUnit, string flowRateUnit) { RW_STREAM str = new RW_STREAM(); BUS_UNITS convUnit = new BUS_UNITS(); str.ID = ID; if (flowRateUnit == "m3/hr") { str.FlowRate = txtFlowRate.Text != "" ? float.Parse(txtFlowRate.Text) : 0; } else { str.FlowRate = txtFlowRate.Text != "" ? float.Parse(txtFlowRate.Text) * (float)convUnit.ft3 : 0; } switch (temperatureUnit) { case "DEG_C": str.MaxOperatingTemperature = txtMaximumOperatingTemp.Text != "" ? float.Parse(txtMaximumOperatingTemp.Text) : 0; str.MinOperatingTemperature = txtMinimumOperatingTemp.Text != "" ? float.Parse(txtMinimumOperatingTemp.Text) : 0; str.CriticalExposureTemperature = txtCriticalExposure.Text != "" ? float.Parse(txtCriticalExposure.Text) : 0; break; case "DEG_F": str.MaxOperatingTemperature = txtMaximumOperatingTemp.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtMaximumOperatingTemp.Text)) : 0; str.MinOperatingTemperature = txtMinimumOperatingTemp.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtMinimumOperatingTemp.Text)) : 0; str.CriticalExposureTemperature = txtCriticalExposure.Text != "" ? (float)convUnit.FahToCel(float.Parse(txtCriticalExposure.Text)) : 0; break; case "K": str.MaxOperatingTemperature = txtMaximumOperatingTemp.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtMaximumOperatingTemp.Text)) : 0; str.MinOperatingTemperature = txtMinimumOperatingTemp.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtMinimumOperatingTemp.Text)) : 0; str.CriticalExposureTemperature = txtCriticalExposure.Text != "" ? (float)convUnit.KenvinToCel(float.Parse(txtCriticalExposure.Text)) : 0; break; } switch (pressureUnit) { case "psi": str.MaxOperatingPressure = txtMaxOperatingPressure.Text != "" ? float.Parse(txtMaxOperatingPressure.Text) : 0; str.MinOperatingPressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) : 0; str.H2SPartialPressure = txtOperatingHydrogen.Text != "" ? float.Parse(txtOperatingHydrogen.Text) : 0; break; case "KSI": str.MaxOperatingPressure = txtMaxOperatingPressure.Text != "" ? float.Parse(txtMaxOperatingPressure.Text) * (float)convUnit.ksi : 0; str.MinOperatingPressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.ksi : 0; str.H2SPartialPressure = txtOperatingHydrogen.Text != "" ? float.Parse(txtOperatingHydrogen.Text) * (float)convUnit.ksi : 0; break; case "bar": str.MaxOperatingPressure = txtMaxOperatingPressure.Text != "" ? float.Parse(txtMaxOperatingPressure.Text) * (float)convUnit.bar : 0; str.MinOperatingPressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.bar : 0; str.H2SPartialPressure = txtOperatingHydrogen.Text != "" ? float.Parse(txtOperatingHydrogen.Text) * (float)convUnit.bar : 0; break; case "MPa": str.MaxOperatingPressure = txtMaxOperatingPressure.Text != "" ? float.Parse(txtMaxOperatingPressure.Text) * (float)convUnit.MPa : 0; str.MinOperatingPressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.MPa : 0; str.H2SPartialPressure = txtOperatingHydrogen.Text != "" ? float.Parse(txtOperatingHydrogen.Text) * (float)convUnit.MPa : 0; break; case "NpM2": str.MaxOperatingPressure = txtMaxOperatingPressure.Text != "" ? float.Parse(txtMaxOperatingPressure.Text) * (float)convUnit.NpM2 : 0; str.MinOperatingPressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.NpM2 : 0; str.H2SPartialPressure = txtOperatingHydrogen.Text != "" ? float.Parse(txtOperatingHydrogen.Text) * (float)convUnit.NpM2 : 0; break; case "NpCM2": str.MaxOperatingPressure = txtMaxOperatingPressure.Text != "" ? float.Parse(txtMaxOperatingPressure.Text) * (float)convUnit.NpCM2 : 0; str.MinOperatingPressure = txtMinOperatingPressure.Text != "" ? float.Parse(txtMinOperatingPressure.Text) * (float)convUnit.NpCM2 : 0; str.H2SPartialPressure = txtOperatingHydrogen.Text != "" ? float.Parse(txtOperatingHydrogen.Text) * (float)convUnit.NpCM2 : 0; break; } return(str); }
public void ShowDatatoControl(int id, string temperatureUnit, string pressureUnit, string corrosionUnit) { RW_MATERIAL_BUS BUS = new RW_MATERIAL_BUS(); RW_MATERIAL obj = BUS.getData(id); BUS_UNITS convUnit = new BUS_UNITS(); txtMaterial.Text = obj.MaterialName; switch (temperatureUnit) { case "DEG_C": txtMaxDesignTemperature.Text = obj.DesignTemperature.ToString(); txtMinDesignTemperature.Text = obj.MinDesignTemperature.ToString(); txtReferenceTemperature.Text = obj.ReferenceTemperature.ToString(); break; case "DEG_F": txtMaxDesignTemperature.Text = (convUnit.CelToFah(obj.DesignTemperature)).ToString(); txtMinDesignTemperature.Text = (convUnit.CelToFah(obj.MinDesignTemperature)).ToString(); txtReferenceTemperature.Text = (convUnit.CelToFah(obj.ReferenceTemperature)).ToString(); break; case "K": txtMaxDesignTemperature.Text = (convUnit.CelToKenvin(obj.DesignTemperature)).ToString(); txtMinDesignTemperature.Text = (convUnit.CelToKenvin(obj.MinDesignTemperature)).ToString(); txtReferenceTemperature.Text = (convUnit.CelToKenvin(obj.ReferenceTemperature)).ToString(); break; } switch (pressureUnit) { case "PSI": txtDesignPressure.Text = (obj.DesignPressure / convUnit.psi).ToString(); txtYieldStrength.Text = (obj.YieldStrength / convUnit.psi).ToString(); txtTensileStrength.Text = (obj.TensileStrength / convUnit.psi).ToString(); break; case "KSI": txtDesignPressure.Text = (obj.DesignPressure / convUnit.ksi).ToString(); txtYieldStrength.Text = (obj.YieldStrength / convUnit.ksi).ToString(); txtTensileStrength.Text = (obj.TensileStrength / convUnit.ksi).ToString(); break; case "BAR": txtDesignPressure.Text = (obj.DesignPressure / convUnit.bar).ToString(); txtYieldStrength.Text = (obj.YieldStrength / convUnit.bar).ToString(); txtTensileStrength.Text = (obj.TensileStrength / convUnit.bar).ToString(); break; case "MPA": txtDesignPressure.Text = (obj.DesignPressure).ToString(); txtYieldStrength.Text = (obj.YieldStrength).ToString(); txtTensileStrength.Text = (obj.TensileStrength).ToString(); break; case "NM2": txtDesignPressure.Text = (obj.DesignPressure / convUnit.NpM2).ToString(); txtYieldStrength.Text = (obj.YieldStrength / convUnit.NpM2).ToString(); txtTensileStrength.Text = (obj.TensileStrength / convUnit.NpM2).ToString(); break; case "NCM2": txtDesignPressure.Text = (obj.DesignPressure / convUnit.NpCM2).ToString(); txtYieldStrength.Text = (obj.YieldStrength / convUnit.NpCM2).ToString(); txtTensileStrength.Text = (obj.TensileStrength / convUnit.NpCM2).ToString(); break; } switch (corrosionUnit) { case "MM": txtCorrosionAllowance.Text = obj.CorrosionAllowance.ToString(); break; case "MIL": txtCorrosionAllowance.Text = (obj.CorrosionAllowance / convUnit.mil).ToString(); break; } txtSigmaPhase.Text = obj.SigmaPhase.ToString(); for (int i = 0; i < itemsSulfurContent.Length; i++) { if (obj.SulfurContent == itemsSulfurContent[i]) { cbSulfurContent.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsPTAMterial.Length; i++) { if (obj.PTAMaterialCode == itemsPTAMterial[i]) { cbPTAMaterialGrade.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsHTHAMaterial.Length; i++) { if (obj.HTHAMaterialCode == itemsHTHAMaterial[i]) { cbHTHAMaterial.SelectedIndex = i + 1; break; } } chkIsPTASeverity.Checked = Convert.ToBoolean(obj.IsPTA); chkIsHTHASeverity.Checked = Convert.ToBoolean(obj.IsHTHA); chkAusteniticSteel.Checked = Convert.ToBoolean(obj.Austenitic); chkSusceptibleTemper.Checked = Convert.ToBoolean(obj.Temper); chkCarbonLowAlloySteel.Checked = Convert.ToBoolean(obj.CarbonLowAlloy); chkNickelAlloy.Checked = Convert.ToBoolean(obj.NickelBased); chkChromium.Checked = Convert.ToBoolean(obj.ChromeMoreEqual12); txtTensileStrength.Text = obj.TensileStrength.ToString(); txtYieldStrength.Text = obj.YieldStrength.ToString(); txtMaterialCostFactor.Text = obj.CostFactor.ToString(); }
private void ShowDataToForm(int ID, string temperatureUnit, string pressureUnit, string flowRateUnit) { RW_STREAM_BUS SteamBus = new RW_STREAM_BUS(); RW_EXTCOR_TEMPERATURE_BUS tempBus = new RW_EXTCOR_TEMPERATURE_BUS(); RW_STREAM objSteam = SteamBus.getData(ID); RW_EXTCOR_TEMPERATURE extTemp = tempBus.getData(ID); BUS_UNITS convUnit = new BUS_UNITS(); switch (temperatureUnit) { case "DEG_C": txtMaximumOperatingTemp.Text = objSteam.MaxOperatingTemperature.ToString(); txtMinimumOperatingTemp.Text = objSteam.MinOperatingTemperature.ToString(); txtCriticalExposure.Text = objSteam.CriticalExposureTemperature.ToString(); break; case "DEG_F": txtMaximumOperatingTemp.Text = convUnit.CelToFah(objSteam.MaxOperatingTemperature).ToString(); txtMinimumOperatingTemp.Text = convUnit.CelToFah(objSteam.MinOperatingTemperature).ToString(); txtCriticalExposure.Text = convUnit.CelToFah(objSteam.CriticalExposureTemperature).ToString(); Console.WriteLine("Hha"); break; case "K": txtMaximumOperatingTemp.Text = convUnit.CelToKenvin(objSteam.MaxOperatingTemperature).ToString(); txtMinimumOperatingTemp.Text = convUnit.CelToKenvin(objSteam.MinOperatingTemperature).ToString(); txtCriticalExposure.Text = convUnit.CelToKenvin(objSteam.CriticalExposureTemperature).ToString(); break; } switch (pressureUnit) { case "psi": txtMaxOperatingPressure.Text = objSteam.MaxOperatingPressure.ToString(); txtMinOperatingPressure.Text = objSteam.MinOperatingPressure.ToString(); txtOperatingHydrogen.Text = objSteam.H2SPartialPressure.ToString(); break; case "KSI": txtMaxOperatingPressure.Text = (objSteam.MaxOperatingPressure / convUnit.ksi).ToString(); txtMinOperatingPressure.Text = (objSteam.MinOperatingPressure / convUnit.ksi).ToString(); txtOperatingHydrogen.Text = (objSteam.H2SPartialPressure / convUnit.ksi).ToString(); break; case "bar": txtMaxOperatingPressure.Text = (objSteam.MaxOperatingPressure / convUnit.bar).ToString(); txtMinOperatingPressure.Text = (objSteam.MinOperatingPressure / convUnit.bar).ToString(); txtOperatingHydrogen.Text = (objSteam.H2SPartialPressure / convUnit.bar).ToString(); break; case "MPa": txtMaxOperatingPressure.Text = (objSteam.MaxOperatingPressure / convUnit.MPa).ToString(); txtMinOperatingPressure.Text = (objSteam.MinOperatingPressure / convUnit.MPa).ToString(); txtOperatingHydrogen.Text = (objSteam.H2SPartialPressure / convUnit.MPa).ToString(); break; case "N/m2": txtMaxOperatingPressure.Text = (objSteam.MaxOperatingPressure / convUnit.NpM2).ToString(); txtMinOperatingPressure.Text = (objSteam.MinOperatingPressure / convUnit.NpM2).ToString(); txtOperatingHydrogen.Text = (objSteam.H2SPartialPressure / convUnit.NpM2).ToString(); break; case "N/cm2": txtMaxOperatingPressure.Text = (objSteam.MaxOperatingPressure / convUnit.NpCM2).ToString(); txtMinOperatingPressure.Text = (objSteam.MinOperatingPressure / convUnit.NpCM2).ToString(); txtOperatingHydrogen.Text = (objSteam.H2SPartialPressure / convUnit.NpCM2).ToString(); break; } switch (flowRateUnit) { case "ft3/hr": txtFlowRate.Text = (objSteam.FlowRate / convUnit.ft3).ToString(); break; case "m3/hr": txtFlowRate.Text = objSteam.FlowRate.ToString(); break; } txtOp12.Text = extTemp.Minus12ToMinus8.ToString(); txtOp8.Text = extTemp.Minus8ToPlus6.ToString(); txtOp6.Text = extTemp.Plus6ToPlus32.ToString(); txtOp32.Text = extTemp.Plus32ToPlus71.ToString(); txtOp71.Text = extTemp.Plus71ToPlus107.ToString(); txtOp107.Text = extTemp.Plus107ToPlus121.ToString(); txtOp121.Text = extTemp.Plus121ToPlus135.ToString(); txtOp135.Text = extTemp.Plus135ToPlus162.ToString(); txtOp162.Text = extTemp.Plus162ToPlus176.ToString(); txtOp176.Text = extTemp.MoreThanPlus176.ToString(); }
private void ShowDataToControl(int ID, string diameter, string thickness, string corrosionRate, string volumeUnit, string stressUnit) { RW_COMPONENT_BUS busCom = new RW_COMPONENT_BUS(); RW_COMPONENT comp = busCom.getData(ID); BUS_UNITS convUnit = new BUS_UNITS(); if (diameter == "INCH") { txtTankDiameter.Text = (comp.NominalDiameter / convUnit.inch).ToString(); // converst mm sang in } else if (diameter == "MM") { txtTankDiameter.Text = comp.NominalDiameter.ToString(); // giữ nguyên } if (thickness == "MM") { txtNominalThickness.Text = comp.NominalThickness.ToString(); //giữ nguyên txtMinRequiredThickness.Text = comp.MinReqThickness.ToString(); // giữ nguyên txtCurrentThickness.Text = comp.CurrentThickness.ToString(); txtBrittleFractureThickness.Text = comp.BrittleFractureThickness.ToString(); txtStructuralThickness.Text = comp.StructuralThickness.ToString(); } else if (thickness == "INCH") { txtNominalThickness.Text = (comp.NominalThickness / convUnit.inch).ToString(); //converst mm sang in txtMinRequiredThickness.Text = (comp.MinReqThickness / convUnit.inch).ToString(); //convert mm sang in txtCurrentThickness.Text = (comp.CurrentThickness / convUnit.inch).ToString(); txtBrittleFractureThickness.Text = (comp.BrittleFractureThickness / convUnit.inch).ToString(); txtStructuralThickness.Text = (comp.StructuralThickness / convUnit.inch).ToString(); } if (corrosionRate == "MMYR") { txtCurrentCorrosionRate.Text = comp.CurrentCorrosionRate.ToString(); // converst mm sang mm } else { txtCurrentCorrosionRate.Text = (comp.CurrentCorrosionRate / convUnit.mil).ToString(); // converst mm sang mil } if (stressUnit == "KSI") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.ksi).ToString(); } else if (stressUnit == "PSI") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.psi).ToString(); } else if (stressUnit == "MPA") { txtAllowableStress.Text = (comp.AllowableStress).ToString(); } else if (stressUnit == "BAR") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.bar).ToString(); } else if (stressUnit == "NM2") { txtAllowableStress.Text = (comp.AllowableStress / convUnit.NpM2).ToString(); } else { txtAllowableStress.Text = (comp.AllowableStress / convUnit.NpCM2).ToString(); } if (volumeUnit == "M3") { txtComponentVolume.Text = comp.ComponentVolume.ToString(); } else { txtComponentVolume.Text = (comp.ComponentVolume / convUnit.ft3).ToString(); } chkConcreteAsphalt.Checked = comp.ConcreteFoundation == 1 ? true : false; chkPresenceCracks.Checked = comp.CracksPresent == 1 ? true : false; chkPreventionBarrier.Checked = comp.ReleasePreventionBarrier == 1 ? true : false; for (int i = 0; i < itemsBrinnellHardness.Length; i++) { if (itemsBrinnellHardness[i] == comp.BrinnelHardness) { cbMaxBrillnessHardness.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsComplexityProtrusion.Length; i++) { if (itemsComplexityProtrusion[i] == comp.ComplexityProtrusion) { cbComplexityProtrusion.SelectedIndex = i + 1; break; } } for (int i = 0; i < itemsSeverity.Length; i++) { if (itemsSeverity[i] == comp.SeverityOfVibration) { cbSeverityVibration.SelectedIndex = i + 1; break; } } }