// We do not use the Vapor Pressure curve capability, and will not, until we see a stronger need.
// /// <summary>
// /// Sets the X and Y data points associated with a vapor pressure versus temperature curve.
// /// </summary>
// /// <param name="vaporPressureTemperaturesInCelsius">The vapor pressure temperatures associated with material of this type.
// /// This is an array of temperatures that correlate to the pressures in the following argument, and are used to create
// /// an object that performs linear interpolation between the two to provide service of vapor pressure at a given temperature.</param>
// /// <param name="vaporPressuresInPascals">The vapor pressures associated with material of this type.
// /// This is an array of pressures that correlate to the temperatures in the preceding argument, and are used to create
// /// an object that performs linear interpolation between the two to provide service of vapor pressure at a given temperature.</param>
// public void SetVaporPressureCurveData(double[] vaporPressureTemperaturesInCelsius, double[] vaporPressuresInPascals){
// m_vaporPressure = new SmallDoubleInterpolable(vaporPressureTemperaturesInCelsius,vaporPressuresInPascals);
// }
/// <summary>
/// Returns the vapor pressure of this material when at the specified temperature - irrespective of the mixture in which it is contained.
/// </summary>
/// <param name="tempInCelsius">The temperature, in celsius, of the mixture.</param>
/// <returns>The vapor pressure of this material.</returns>
public double GetVaporPressure(double tempInCelsius)
{
double vp = VaporPressureCalculator.ComputeVaporPressure(this, tempInCelsius, TemperatureUnits.Celsius, PressureUnits.Pascals);
// if ( double.IsNaN(vp) && m_vaporPressure != null ) {
// vp = m_vaporPressure.GetYValue(tempInCelsius);
// }
return(vp);
}
/// <summary>
/// Estimates a boiling point for the substance.
/// </summary>
/// <param name="atPressureInPascals">The pressure at which the boiling point is desired.</param>
/// <returns>The estimated boiling point, in degrees celsius.</returns>
public double GetEstimatedBoilingPoint(double atPressureInPascals)
{
return(VaporPressureCalculator.ComputeBoilingPoint(this, atPressureInPascals));
}
/// <summary>
/// Returns the vapor pressure of this material (in mmHg) when at the specified temperature and in the specified mixture.
/// </summary>
/// <param name="tempInCelsius">The temperature, in celsius, of the mixture.</param>
/// <param name="hostMixture">The mixture in which this material type is contained.</param>
/// <returns>The vapor pressure of this material in mmHg.</returns>
public double GetVaporPressure(double tempInCelsius, Mixture hostMixture)
{
return(VaporPressureCalculator.ComputeVaporPressure(this, hostMixture));
}
