Buildings.Media.Water
Package with model for liquid water with constant density
Information
This medium package models liquid water.
The mass density is computed using a constant value of 995.586 kg/s. For a medium model in which the density is a function of temperature, use Buildings.Media.Specialized.Water.TemperatureDependentDensity which may have considerably higher computing time.
For the specific heat capacities at constant pressure and at constant volume, a constant value of 4184 J/(kg K), which corresponds to 20°C is used. The figure below shows the relative error of the specific heat capacity that is introduced by this simplification.
The enthalpy is computed using the convention that h=0 if T=0 °C.
Limitations
Density, specific heat capacity, thermal conductivity and viscosity are constant. Water is modeled as an incompressible liquid. There are no phase changes.
Extends from Modelica.Media.Water.ConstantPropertyLiquidWater (Water: Simple liquid water medium (incompressible, constant data)), Modelica.Icons.Package (Icon for standard packages).
Package Content
| Name | Description |
|---|---|
 BaseProperties
|
Base properties |
 enthalpyOfLiquid
|
Return the specific enthalpy of liquid |
| Inherited | |
| simpleWaterConstants | |
| cp_const | Constant specific heat capacity at constant pressure |
| cv_const | Constant specific heat capacity at constant volume |
| d_const | Constant density |
| eta_const | Constant dynamic viscosity |
| lambda_const | Constant thermal conductivity |
| a_const | Constant velocity of sound |
| T_min | Minimum temperature valid for medium model |
| T_max | Maximum temperature valid for medium model |
| T0=reference_T | Zero enthalpy temperature |
| MM_const | Molar mass |
| fluidConstants | Fluid constants |
 ThermodynamicState
|
Thermodynamic state |
 setState_pTX
|
Return thermodynamic state from p, T, and X or Xi |
| setState_phX
|
Return thermodynamic state from p, h, and X or Xi |
| setState_psX
|
Return thermodynamic state from p, s, and X or Xi |
| setState_dTX
|
Return thermodynamic state from d, T, and X or Xi |
| setSmoothState
|
Return thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b |
| dynamicViscosity
|
Return dynamic viscosity |
| thermalConductivity
|
Return thermal conductivity |
| pressure
|
Return pressure |
| temperature
|
Return temperature |
| density
|
Return density |
| specificEnthalpy
|
Return specific enthalpy |
| specificHeatCapacityCp
|
Return specific heat capacity at constant pressure |
| specificHeatCapacityCv
|
Return specific heat capacity at constant volume |
| isentropicExponent
|
Return isentropic exponent |
| velocityOfSound
|
Return velocity of sound |
| specificEnthalpy_pTX
|
Return specific enthalpy from p, T, and X or Xi |
| temperature_phX
|
Return temperature from p, h, and X or Xi |
| density_phX
|
Return density from p, h, and X or Xi |
 specificInternalEnergy
|
Return specific internal energy |
| specificEntropy
|
Return specific entropy |
| specificGibbsEnergy
|
Return specific Gibbs energy |
| specificHelmholtzEnergy
|
Return specific Helmholtz energy |
 isentropicEnthalpy
|
Return isentropic enthalpy |
| isobaricExpansionCoefficient
|
Returns overall the isobaric expansion coefficient beta |
| isothermalCompressibility
|
Returns overall the isothermal compressibility factor |
| density_derp_T
|
Returns the partial derivative of density with respect to pressure at constant temperature |
| density_derT_p
|
Returns the partial derivative of density with respect to temperature at constant pressure |
| density_derX
|
Returns the partial derivative of density with respect to mass fractions at constant pressure and temperature |
| molarMass
|
Return the molar mass of the medium |
| setState_pT
|
Return thermodynamic state from p and T |
| setState_ph
|
Return thermodynamic state from p and h |
| setState_ps
|
Return thermodynamic state from p and s |
| setState_dT
|
Return thermodynamic state from d and T |
| density_ph
|
Return density from p and h |
| temperature_ph
|
Return temperature from p and h |
| pressure_dT
|
Return pressure from d and T |
| specificEnthalpy_dT
|
Return specific enthalpy from d and T |
| specificEnthalpy_ps
|
Return specific enthalpy from p and s |
| temperature_ps
|
Return temperature from p and s |
| density_ps
|
Return density from p and s |
| specificEnthalpy_pT
|
Return specific enthalpy from p and T |
| density_pT
|
Return density from p and T |
| ThermoStates | Enumeration type for independent variables |
| mediumName="unusablePartialMedium" | Name of the medium |
| substanceNames={mediumName} | Names of the mixture substances. Set substanceNames={mediumName} if only one substance. |
| extraPropertiesNames=fill("", 0) | Names of the additional (extra) transported properties. Set extraPropertiesNames=fill("",0) if unused |
| singleState | = true, if u and d are not a function of pressure |
| reducedX=true | = true if medium contains the equation sum(X) = 1.0; set reducedX=true if only one substance (see docu for details) |
| fixedX=false | = true if medium contains the equation X = reference_X |
| reference_p=101325 | Reference pressure of Medium: default 1 atmosphere |
| reference_T=298.15 | Reference temperature of Medium: default 25 deg Celsius |
| reference_X=fill(1/nX, nX) | Default mass fractions of medium |
| p_default=101325 | Default value for pressure of medium (for initialization) |
| T_default=Modelica.SIunits.Conversions.from_degC(20) | Default value for temperature of medium (for initialization) |
| h_default=specificEnthalpy_pTX(p_default, T_default, X_default) | Default value for specific enthalpy of medium (for initialization) |
| X_default=reference_X | Default value for mass fractions of medium (for initialization) |
| nS=size(substanceNames, 1) | Number of substances |
| nX=nS | Number of mass fractions |
| nXi=if fixedX then 0 else if reducedX then nS - 1 else nS | Number of structurally independent mass fractions (see docu for details) |
| nC=size(extraPropertiesNames, 1) | Number of extra (outside of standard mass-balance) transported properties |
| C_nominal=1.0e-6*ones(nC) | Default for the nominal values for the extra properties |
 FluidConstants
|
Critical, triple, molecular and other standard data of fluid |
 prandtlNumber
|
Return the Prandtl number |
| heatCapacity_cp
|
Alias for deprecated name |
| heatCapacity_cv
|
Alias for deprecated name |
| beta
|
Alias for isobaricExpansionCoefficient for user convenience |
| kappa
|
Alias of isothermalCompressibility for user convenience |
| density_derp_h
|
Return density derivative w.r.t. pressure at const specific enthalpy |
| density_derh_p
|
Return density derivative w.r.t. specific enthalpy at constant pressure |
| specificEntropy_pTX
|
Return specific enthalpy from p, T, and X or Xi |
| density_pTX
|
Return density from p, T, and X or Xi |
| temperature_psX
|
Return temperature from p,s, and X or Xi |
| density_psX
|
Return density from p, s, and X or Xi |
| specificEnthalpy_psX
|
Return specific enthalpy from p, s, and X or Xi |
 MassFlowRate
|
Type for mass flow rate with medium specific attributes |
| AbsolutePressure
|
Type for absolute pressure with medium specific attributes |
| Density
|
Type for density with medium specific attributes |
| DynamicViscosity
|
Type for dynamic viscosity with medium specific attributes |
| EnthalpyFlowRate
|
Type for enthalpy flow rate with medium specific attributes |
| MassFraction
|
Type for mass fraction with medium specific attributes |
| MoleFraction
|
Type for mole fraction with medium specific attributes |
| MolarMass
|
Type for molar mass with medium specific attributes |
| MolarVolume
|
Type for molar volume with medium specific attributes |
| IsentropicExponent
|
Type for isentropic exponent with medium specific attributes |
| SpecificEnergy
|
Type for specific energy with medium specific attributes |
| SpecificInternalEnergy
|
Type for specific internal energy with medium specific attributes |
| SpecificEnthalpy
|
Type for specific enthalpy with medium specific attributes |
| SpecificEntropy
|
Type for specific entropy with medium specific attributes |
| SpecificHeatCapacity
|
Type for specific heat capacity with medium specific attributes |
| SurfaceTension
|
Type for surface tension with medium specific attributes |
| Temperature
|
Type for temperature with medium specific attributes |
| ThermalConductivity
|
Type for thermal conductivity with medium specific attributes |
| PrandtlNumber
|
Type for Prandtl number with medium specific attributes |
| VelocityOfSound
|
Type for velocity of sound with medium specific attributes |
| ExtraProperty
|
Type for unspecified, mass-specific property transported by flow |
| CumulativeExtraProperty
|
Type for conserved integral of unspecified, mass specific property |
| ExtraPropertyFlowRate
|
Type for flow rate of unspecified, mass-specific property |
| IsobaricExpansionCoefficient
|
Type for isobaric expansion coefficient with medium specific attributes |
| DipoleMoment
|
Type for dipole moment with medium specific attributes |
| DerDensityByPressure
|
Type for partial derivative of density with respect to pressure with medium specific attributes |
| DerDensityByEnthalpy
|
Type for partial derivative of density with respect to enthalpy with medium specific attributes |
| DerEnthalpyByPressure
|
Type for partial derivative of enthalpy with respect to pressure with medium specific attributes |
| DerDensityByTemperature
|
Type for partial derivative of density with respect to temperature with medium specific attributes |
| DerTemperatureByPressure
|
Type for partial derivative of temperature with respect to pressure with medium specific attributes |
 SaturationProperties
|
Saturation properties of two phase medium |
| FluidLimits
|
Validity limits for fluid model |
 FixedPhase
|
Phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g., interactive use |
 Basic
|
The most basic version of a record used in several degrees of detail |
| IdealGas
|
The ideal gas version of a record used in several degrees of detail |
| TwoPhase
|
The two phase fluid version of a record used in several degrees of detail |
Buildings.Media.Water.BaseProperties
Base properties
Information
This base properties model is identical to
Modelica.Media.Water.ConstantPropertyLiquidWater,
except that the equation
u = cv_const*(T - reference_T)
has been replaced by u=h because
cp_const=cv_const.
Parameters
| Type | Name | Default | Description |
|---|---|---|---|
| Advanced | |||
| Boolean | preferredMediumStates | false | = true if StateSelect.prefer shall be used for the independent property variables of the medium |
Modelica definition
redeclare model BaseProperties "Base properties"
Temperature T(stateSelect=
if preferredMediumStates then StateSelect.prefer else StateSelect.default)
"Temperature of medium";
InputAbsolutePressure p "Absolute pressure of medium";
InputMassFraction[nXi] Xi=fill(0, 0)
"Structurally independent mass fractions";
InputSpecificEnthalpy h "Specific enthalpy of medium";
Modelica.SIunits.SpecificInternalEnergy u
"Specific internal energy of medium";
Modelica.SIunits.Density d=d_const "Density of medium";
Modelica.SIunits.MassFraction[nX] X={1}
"Mass fractions (= (component mass)/total mass m_i/m)";
final Modelica.SIunits.SpecificHeatCapacity R=0
"Gas constant (of mixture if applicable)";
final Modelica.SIunits.MolarMass MM=MM_const
"Molar mass (of mixture or single fluid)";
ThermodynamicState state
"Thermodynamic state record for optional functions";
parameter Boolean preferredMediumStates=false
"= true if StateSelect.prefer shall be used for the independent property variables of the medium";
final parameter Boolean standardOrderComponents=true
"If true, and reducedX = true, the last element of X will be computed from the other ones";
Modelica.SIunits.Conversions.NonSIunits.Temperature_degC T_degC=
Modelica.SIunits.Conversions.to_degC(T)
"Temperature of medium in [degC]";
Modelica.SIunits.Conversions.NonSIunits.Pressure_bar p_bar=
Modelica.SIunits.Conversions.to_bar(p)
"Absolute pressure of medium in [bar]";
// Local connector definition, used for equation balancing check
connector InputAbsolutePressure = input Modelica.SIunits.AbsolutePressure
"Pressure as input signal connector";
connector InputSpecificEnthalpy = input Modelica.SIunits.SpecificEnthalpy
"Specific enthalpy as input signal connector";
connector InputMassFraction = input Modelica.SIunits.MassFraction
"Mass fraction as input signal connector";
equation
assert(T >= T_min and T <= T_max, "
Temperature T (= "
+ String(T) + " K) is not
in the allowed range ("
+ String(T_min) + " K <= T <= " + String(T_max) + " K)
required from medium model \""
+ mediumName + "\".
");
h = cp_const*(T-reference_T);
u = h;
state.T = T;
state.p = p;
end BaseProperties;
Buildings.Media.Water.enthalpyOfLiquid
Return the specific enthalpy of liquid
Information
Enthalpy of the water.
Extends from Modelica.Icons.Function (Icon for functions).
Inputs
| Type | Name | Default | Description |
|---|---|---|---|
| Temperature | T | Temperature [K] |
Outputs
| Type | Name | Description |
|---|---|---|
| SpecificEnthalpy | h | Specific enthalpy [J/kg] |
Modelica definition
function enthalpyOfLiquid "Return the specific enthalpy of liquid"
extends Modelica.Icons.Function;
input Modelica.SIunits.Temperature T "Temperature";
output Modelica.SIunits.SpecificEnthalpy h "Specific enthalpy";
algorithm
h := cp_const*(T-reference_T);
end enthalpyOfLiquid;
Buildings.Media.Water.BaseProperties.InputAbsolutePressure
Pressure as input signal connector
Modelica definition
connector InputAbsolutePressure = input Modelica.SIunits.AbsolutePressure
"Pressure as input signal connector";
Buildings.Media.Water.BaseProperties.InputMassFraction
Mass fraction as input signal connector
Modelica definition
connector InputMassFraction = input Modelica.SIunits.MassFraction
"Mass fraction as input signal connector";
Buildings.Media.Water.BaseProperties.InputSpecificEnthalpy
Specific enthalpy as input signal connector
Modelica definition
connector InputSpecificEnthalpy = input Modelica.SIunits.SpecificEnthalpy
"Specific enthalpy as input signal connector";