private void tabPanel1_btnCalc_Click(object sender, EventArgs e)
{
// Collect input data
double altitude = double.Parse(tabPanel1_txtAltitude.Text);
double Db = double.Parse(tabPanel1_txtDb.Text);
double Wb = double.Parse(tabPanel1_txtWb.Text);
// Decide if IP or SI
if (checkBox1.Checked == false)
{
// IP units
PsychrometricPointIP p1 = new PsychrometricPointIP(altitude);
p1.CalcAllUsingDbWb(Db, Wb);
tabPanel1_txtRH.Text = p1.RelativeHumidityPercentage.ToString();
tabPanel1_txtTd.Text = p1.DewPointTemperatureInDegF.ToString();
tabPanel1_txtW.Text = p1.HumidityRatioInPoundsPerPound.ToString();
tabPanel1_txtWgrains.Text = p1.HumidityRatioGrainsPerPound.ToString();
tabPanel1_txtV.Text = p1.SpecificVolumeInCubicFeetPerPound.ToString();
tabPanel1_txtH.Text = p1.EnthalpyInBtuPerPound.ToString();
tabPanel1_txtP.Text = p1.AtmosphericPressurePsia.ToString();
}
else if (checkBox1.Checked == true)
{
// SI Units
PsychrometricPointSI p2 = new PsychrometricPointSI(altitude);
p2.CalcAllUsingDbWb(Db, Wb);
tabPanel1_txtRH.Text = p2.RelativeHumidityPercentage.ToString();
tabPanel1_txtTd.Text = p2.DewPointTemperature.ToString();
tabPanel1_txtW.Text = p2.HumidityRatio.ToString();
tabPanel1_txtWgrains.Text = p2.HumidityRatioGramsPerKilogram.ToString();
tabPanel1_txtV.Text = p2.SpecificVolume.ToString();
tabPanel1_txtH.Text = p2.Enthalpy.ToString();
tabPanel1_txtP.Text = p2.AtmosphericPressureKPa.ToString();
}
}
private void button1_Click(object sender, EventArgs e)
{
// Collect Input Data
double point1_Db = double.Parse(point1_txtDb.Text);
double point1_Wb = double.Parse(point1_txtWb.Text);
double point1_Flow = double.Parse(point1_txtFlowRate.Text);
double altitude = double.Parse(point1_txtAltitude.Text);
double point2_Db = double.Parse(point2_txtDb.Text);
double point2_Wb = double.Parse(point2_txtWb.Text);
double point2_Flow = double.Parse(point2_txtFlowRate.Text);
// Decide if IP or SI
if (checkBox1.Checked == false)
{
// IP Units
// Create two psychrometric points
PsychrometricPointIP p1 = new PsychrometricPointIP(altitude, point1_Flow);
p1.CalcAllUsingDbWb(point1_Db, point1_Wb);
PsychrometricPointIP p2 = new PsychrometricPointIP(altitude, point2_Flow);
p2.CalcAllUsingDbWb(point2_Db, point2_Wb);
// Create the psychrometric mix point
PsychrometricAirMixtureIP mix = new PsychrometricAirMixtureIP(p1, p2);
// Fill text boxes
mix_txtDb.Text = mix.DryBulbTemperatureInDegF.ToString();
mix_txtWb.Text = mix.WetBulbTemperatureInDegF.ToString();
mix_txtRH.Text = mix.RelativeHumidityPercentage.ToString();
mix_txtTd.Text = mix.DewPointTemperatureInDegF.ToString();
mix_txtW.Text = mix.HumidityRatioInPoundsPerPound.ToString();
mix_txtWgrains.Text = mix.HumidityRatioGrainsPerPound.ToString();
mix_txtV.Text = mix.SpecificVolumeInCubicFeetPerPound.ToString();
mix_txtH.Text = mix.EnthalpyInBtuPerPound.ToString();
mix_txtP.Text = mix.AtmosphericPressurePsia.ToString();
}
else if (checkBox1.Checked == true)
{
// SI Units
// Create two psychrometric points
PsychrometricPointSI p1 = new PsychrometricPointSI(altitude, point1_Flow);
p1.CalcAllUsingDbWb(point1_Db, point1_Wb);
PsychrometricPointSI p2 = new PsychrometricPointSI(altitude, point2_Flow);
p2.CalcAllUsingDbWb(point2_Db, point2_Wb);
// Create psychrometric mix point
PsychrometricAirMixtureSI mix = new PsychrometricAirMixtureSI(p1, p2);
// Fill text boxes
mix_txtDb.Text = mix.DryBulbTemperature.ToString();
mix_txtWb.Text = mix.WetBulbTemperature.ToString();
mix_txtRH.Text = mix.RelativeHumidityPercentage.ToString();
mix_txtTd.Text = mix.DewPointTemperature.ToString();
mix_txtW.Text = mix.HumidityRatio.ToString();
mix_txtWgrains.Text = mix.HumidityRatioGramsPerKilogram.ToString();
mix_txtV.Text = mix.SpecificVolume.ToString();
mix_txtH.Text = mix.Enthalpy.ToString();
mix_txtP.Text = mix.AtmosphericPressureKPa.ToString();
}
}