The nomenclature used in this package is described at Buildings.UsersGuide.Conventions.
Name | Description |
---|---|
X_pW | Humidity ratio for given water vapor pressure |
pW_X | Water vapor pressure for given humidity ratio |
Examples | Collection of models that illustrate model use and test models |
Internal | Solve f(x, data) for x with given f |
BaseClasses | Package with base classes |
pW_TDewPoi | Function to compute the water vapor partial pressure for a given dew point temperature of moist air |
pW_TDewPoi_amb | Function to compute the water vapor partial pressure for a given dew point temperature of moist air |
TDewPoi_pW | Function to compute the water vapor partial pressure for a given dew point temperature of moist air |
TDewPoi_pW_amb | Function to compute the dew point temperature of moist air for a given water vapor partial pressure |
Function to compute the humidity ratio for a given water vapor partial pressure.
Type | Name | Default | Description |
---|---|---|---|
Pressure | p_w | Water vapor pressure [Pa] | |
Pressure | p | 101325 | Total pressure [Pa] |
Type | Name | Description |
---|---|---|
MassFraction | X_w | Species concentration at dry bulb temperature [1] |
function X_pW "Humidity ratio for given water vapor pressure" input Modelica.SIunits.Pressure p_w "Water vapor pressure"; input Modelica.SIunits.Pressure p=101325 "Total pressure"; output Modelica.SIunits.MassFraction X_w( min=0, max=1, nominal=0.01) "Species concentration at dry bulb temperature"; protected Modelica.SIunits.MassFraction x_w(nominal=0.01) "Water mass fraction per mass of dry air"; algorithm x_w := 0.62198*p_w/(p - p_w); X_w := x_w/(1 + x_w);end X_pW;
Function to compute the water vapor partial pressure for a given humidity ratio.
Type | Name | Default | Description |
---|---|---|---|
MassFraction | X_w | Species concentration at dry bulb temperature [1] | |
Pressure | p | 101325 | Total pressure [Pa] |
Type | Name | Description |
---|---|---|
Pressure | p_w | Water vapor pressure [Pa] |
function pW_X "Water vapor pressure for given humidity ratio" annotation(derivative=BaseClasses.der_pW_X); input Modelica.SIunits.MassFraction X_w( min=0, max=1, nominal=0.01) "Species concentration at dry bulb temperature"; input Modelica.SIunits.Pressure p=101325 "Total pressure"; output Modelica.SIunits.Pressure p_w "Water vapor pressure"; protected Modelica.SIunits.MassFraction x_w(nominal=0.01) "Water mass fraction per mass of dry air"; algorithm x_w := X_w/(1 - X_w); p_w := p*x_w/(0.62198 + x_w);end pW_X;
Dew point temperature calculation for moist air above freezing temperature.
The correlation used in this model is valid for dew point temperatures between
0 degC
and 200 degC
. It is the correlation from 2005
ASHRAE Handbook, p. 6.2. In an earlier version of this model, the equation from
Peppers has been used, but this equation yielded about 15 Kelvin lower dew point
temperatures.
Type | Name | Default | Description |
---|---|---|---|
Temperature | T | Dew point temperature [K] |
Type | Name | Description |
---|---|---|
Pressure | p_w | Water vapor partial pressure [Pa] |
function pW_TDewPoi "Function to compute the water vapor partial pressure for a given dew point temperature of moist air" annotation(derivative=BaseClasses.der_pW_TDewPoi); input Modelica.SIunits.Temperature T "Dew point temperature"; output Modelica.SIunits.Pressure p_w "Water vapor partial pressure"; protected constant Real C8=-5.800226E3; constant Real C9=1.3914993E0; constant Real C10=-4.8640239E-2; constant Real C11=4.1764768E-5; constant Real C12=-1.4452093E-8; constant Real C13=6.5459673E0; algorithm p_w := Modelica.Math.exp(C8/T + C9 + T*(C10 + T*(C11 + T*C12)) + C13* Modelica.Math.log(T));end pW_TDewPoi;
Dew point temperature calculation for moist air between 0 degC and 30 degC.
The correlation used in this model is valid for dew point temperatures between
0 degC
and 30 degC
. It is an approximation to the correlation from 2005
ASHRAE Handbook, p. 6.2, which is valid in a wider range of temperatures and implemented
in
Buildings.Utilities.Psychrometrics.Functions.pW_TDewPoi.
The approximation error of this simplified function is below 5% for a
temperature of 0 degC
to 30 degC
.
The benefit of this simpler function is that it can be inverted analytically,
whereas the other function requires a numerical solution.
Extends from Buildings.Utilities.Psychrometrics.Functions.BaseClasses.pW_TDewPoi_amb (Partial function to compute the water vapor partial pressure for a given dew point temperature of moist air and its inverse).
Type | Name | Default | Description |
---|---|---|---|
Temperature | T | Dew point temperature [K] |
Type | Name | Description |
---|---|---|
Pressure | p_w | Water vapor partial pressure [Pa] |
function pW_TDewPoi_amb "Function to compute the water vapor partial pressure for a given dew point temperature of moist air" annotation(derivative=BaseClasses.der_pW_TDewPoi_amb); extends Buildings.Utilities.Psychrometrics.Functions.BaseClasses.pW_TDewPoi_amb; input Modelica.SIunits.Temperature T "Dew point temperature"; output Modelica.SIunits.Pressure p_w "Water vapor partial pressure"; algorithm p_w := Modelica.Math.exp(a1 + a2*T);end pW_TDewPoi_amb;
Dew point temperature calculation for moist air above freezing temperature.
The correlation used in this model is valid for dew point temperatures between
0 degC
and 200 degC
. It is the correlation from 2005
ASHRAE Handbook, p. 6.2. In an earlier version of this model, the equation from
Peppers has been used, but this equation yielded about 15 Kelvin lower dew point
temperatures.
Type | Name | Default | Description |
---|---|---|---|
Pressure | p_w | Water vapor partial pressure [Pa] |
Type | Name | Description |
---|---|---|
Temperature | T | Dew point temperature [K] |
function TDewPoi_pW "Function to compute the water vapor partial pressure for a given dew point temperature of moist air" input Modelica.SIunits.Pressure p_w "Water vapor partial pressure"; output Modelica.SIunits.Temperature T "Dew point temperature"; algorithm T := Internal.solve( y_zero=p_w, x_min=200, x_max=400, f_nonlinear_data={0});end TDewPoi_pW;
Dew point temperature calculation for moist air between 0 degC and 30 degC with partial pressure of water vapor as an input.
The correlation used in this model is valid for dew point temperatures between
0 degC
and 30 degC
. It is an approximation to the correlation from 2005
ASHRAE Handbook, p. 6.2, which is valid in a wider range of temperatures and implemented
in
Buildings.Utilities.Psychrometrics.Functions.pW_TDewPoi.
The approximation error of this simplified function is below 5% for a
temperature of 0 degC
to 30 degC
.
The benefit of this simpler function is that it can be inverted analytically,
whereas the other function requires a numerical solution.
Extends from Buildings.Utilities.Psychrometrics.Functions.BaseClasses.pW_TDewPoi_amb (Partial function to compute the water vapor partial pressure for a given dew point temperature of moist air and its inverse).
Type | Name | Default | Description |
---|---|---|---|
Pressure | p_w | Water vapor partial pressure [Pa] |
Type | Name | Description |
---|---|---|
Temperature | T | Dew point temperature [K] |
function TDewPoi_pW_amb "Function to compute the dew point temperature of moist air for a given water vapor partial pressure" annotation(derivative=BaseClasses.der_TDewPoi_pW_amb); extends Buildings.Utilities.Psychrometrics.Functions.BaseClasses.pW_TDewPoi_amb; input Modelica.SIunits.Pressure p_w "Water vapor partial pressure"; output Modelica.SIunits.Temperature T "Dew point temperature"; algorithm T := (Modelica.Math.log(p_w) - a1)/a2;end TDewPoi_pW_amb;