private void DataToUi(MeasurementData measurementData) { Tc1TextBox.Dispatcher.Invoke(() => Tc1TextBox.Text = measurementData.Tc1.ToString("F")); Tc2TextBox.Dispatcher.Invoke(() => Tc2TextBox.Text = measurementData.Tc2.ToString("F")); Tc3TextBox.Dispatcher.Invoke(() => Tc3TextBox.Text = measurementData.Tc3.ToString("F")); Tc4TextBox.Dispatcher.Invoke(() => Tc4TextBox.Text = measurementData.Tc4.ToString("F")); TempAirInTextBox.Dispatcher.Invoke(() => TempAirInTextBox.Text = measurementData.TinA.ToString("F")); TempAirOutTextBox.Dispatcher.Invoke(() => TempAirOutTextBox.Text = measurementData.ToutA.ToString("F")); TempWaterInTextBox.Dispatcher.Invoke(() => TempWaterInTextBox.Text = measurementData.TinW.ToString("F")); TempWaterOutTextBox.Dispatcher.Invoke(() => TempWaterOutTextBox.Text = measurementData.ToutW.ToString("F")); WaterTankTemperatureTextBox.Dispatcher.Invoke(() => WaterTankTemperatureTextBox.Text = measurementData.Tvn.ToString("F")); WaterVolumeFlowTextBox.Dispatcher.Invoke(() => WaterVolumeFlowTextBox.Text = measurementData.v.ToString("F")); UTextBox.Dispatcher.Invoke(() => UTextBox.Text = measurementData.U.ToString("F")); ITextBox.Dispatcher.Invoke(() => ITextBox.Text = measurementData.I.ToString("F")); COPLoadedTextBox.Dispatcher.Invoke(() => COPLoadedTextBox.Text = measurementData.COP.ToString("F")); }
private void CalculateEvaporator(MeasurementData measurementData) { var evaporatorVTextBox = EvaporatorVTextBox.Dispatcher.Invoke(() => EvaporatorVTextBox.Text); if (!double.TryParse(evaporatorVTextBox, out double evaporatorV)) { _consoleManager.ConsoleWriteMessage("Cannot parse Evaporator volume flow."); return; } var evaporatorHumidity = EvaporatorHumidity.Dispatcher.Invoke(() => EvaporatorHumidity.Text); if (!double.TryParse(evaporatorHumidity, out double humidity)) { _consoleManager.ConsoleWriteMessage("Cannot parse humidity."); return; } var heightOverSea = HeightOverSea.Dispatcher.Invoke(() => HeightOverSea.Text); if (!double.TryParse(heightOverSea, out double height)) { _consoleManager.ConsoleWriteMessage("Cannot parse height over sea."); return; } _systemCalculation.EvaporatorData = new CoilData(null, measurementData.TinA - measurementData.ToutA, measurementData.TinA); double?result = _systemCalculation.CalculateEvaporator(humidity, height, evaporatorV); EvaporatorPTextBox.Dispatcher.Invoke(() => EvaporatorPTextBox.Text = result.ToString()); }
public double AddValue(double timeElapsed, MeasurementData measurementData) { _callCount += 1; double capacity = measurementData.U * measurementData.I; _energySum += (capacity / 1000); double average = _energySum / _callCount; // to kWh return(Math.Round(average * (timeElapsed / 3600), 6)); }
private void CalculateCOP(MeasurementData measurementData) { //Condenser // loaded volume flow is in cm3 so need to convert it to m3 double condenserV = measurementData.v * Math.Pow(10, -6); _systemCalculation.CondenserData = new CoilData(condenserV, null, measurementData.TinW, measurementData.ToutW); // Electrical appliances _systemCalculation.CompressorData = new ElectricalApplianceData(measurementData.U, measurementData.I); if (!_systemCalculation.CalculateSystem().HasValue) { _consoleManager.ConsoleWriteMessage("COP not calculated."); COPCalculatedTextBox.Dispatcher.Invoke(() => COPCalculatedTextBox.Text = "0"); return; } COPCalculatedTextBox.Dispatcher.Invoke(() => COPCalculatedTextBox.Text = SystemCalculation.GetSysCOP.ToString("F")); }