Correlation 25
- Last UpdatedMar 07, 2023
- 4 minute read
The following table lists the identification numbers of this correlation with respect to some well-known sources of thermodynamic data.
|
Source |
Correlation Number |
|---|---|
|
SimSci |
25 |
|
PPDS |
- |
|
DIPPR 801 |
- |
|
NIST TDE |
- |
|
DECHEMA IK-CAPE PPDX |
CPL: Equation for the specific heat capacity of liquids ICPL: Equation for the specific heat capacity of liquids |
The equation has the following form:
You must use at least 1 coefficient with this correlation.
You can use up to 7 coefficients with this correlation.
The input temperature must be in absolute units (K or R).
If you want to use the IK-CAPE CPL equation, set the C5 and C6 coefficients to zero.
If you want to use the IK-CAPE ICPL equation, set the C7 coefficient to zero.
Modification for specific heat in AVEVA Process Simulation
In the Component Data section of the Fluid Editor, AVEVA Process Simulation shows temperature-dependent correlations for specific heat instead of enthalpy. When
you enter correlation coefficients for specific heat in the Fluid Editor, you enter
values for the derivative (specific heat) form of the correlation (
).
However, AVEVA Thermodynamic Data Manager (TDM) shows temperature-dependant correlations for enthalpy, not specific heat. Therefore,
when you specify the temperature-dependent properties in TDM, you see and enter the
correlation coefficient values for the integrated (enthalpy) form of the equation
(
). When you specify the correlation coefficient values in TDM, you should take care
to follow the correct coefficient mapping between the AVEVA Process Simulation coefficients () and the TDM coefficients (). See Example of coefficient mapping between AVEVA Thermodynamic Data Manager and AVEVA
Process Simulation for more information.
Internally, AVEVA Process Simulation still uses the integrated (enthalpy) form of the equation to perform calculations.
The 
coefficient in TDM is the constant of integration, and this term cancels out when
performing calculations. Therefore, you can set the coefficient in TDM to any value without affecting the calculation results. When we
specify the coefficient mapping for the correlation, we set the coefficient to zero, but you can use any value in TDM and still get matching calculation
results in both AVEVA Process Simulation and TDM.
The following equation shows the derivative form of this correlation:
The following equations show the coefficient mapping between the integrated and derivative forms of the correlation:
You must use at least 1 coefficient with this correlation.
You can use up to 6 coefficients with this correlation.
Usage
We recommend that you use this correlation to calculate only the following properties:
-
Ideal Vapor Enthalpy
-
Ideal Gas Specific Heat Capacity
-
Vapor Thermal Conductivity
References
-
Thermodynamics-Package for CAPE-Applications. DECHEMA e.V. [Online] March 28, 2002, pp 7-10. http://dechema.de/dechema_media/IK_CAPE_Equations-p-888.pdf (accessed May 1, 2018).