Calculate species pressure both for gas and liquid model In case of gas mixture, it is partial pressure where as in liquid mixture this is not valid. However, it is used to compute mixture pressure and then the kinematic_pressure from the mixture pressure. Formula to calculate pressure: here, - species density, \ - species molecular weight ratio, \
| Type | Intent | Optional | Attributes | Name | ||
|---|---|---|---|---|---|---|
| class(tem_varSys_op_type), | intent(in) | :: | fun |
Description of the method to obtain the variables, here some preset values might be stored, like the space time function to use or the required variables. |
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| type(tem_varSys_type), | intent(in) | :: | varSys |
The variable system to obtain the variable from. |
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| integer, | intent(in) | :: | elempos(:) |
Position of the TreeID of the element to get the variable for in the global treeID list. |
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| type(tem_time_type), | intent(in) | :: | time |
Point in time at which to evaluate the variable. |
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| type(treelmesh_type), | intent(in) | :: | tree |
global treelm mesh info |
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| integer, | intent(in) | :: | nElems |
Number of values to obtain for this variable (vectorized access). |
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| integer, | intent(in) | :: | nDofs |
Number of degrees of freedom within an element. |
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| real(kind=rk), | intent(out) | :: | res(:) |
Resulting values for the requested variable. Linearized array dimension: (n requested entries) x (nComponents of this variable) x (nDegrees of freedom) Access: (iElem-1)fun%nComponentsnDofs + (iDof-1)*fun%nComponents + iComp |