openfoam

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Henry 63da3e9afc Thermodynamics: Rationalization

At the specie level:
    hs = sensible enthalpy
    ha = absolute (what was total) enthalpy
    es = sensibly internal energy
    ea = absolute (what was total) internal energy

At top-level
    Rename total enthalpy h -> ha
    Rename sensible enthalpy hs -> h

Combined h, hs, e and es thermo packages into a single structure.

Thermo packages now provide "he" function which may return either enthalpy or
internal energy, sensible or absolute according to the run-time selected form

alphaEff now returns the effective diffusivity for the particular energy which
the thermodynamics package is selected to solve for.

2012-05-30 15:19:38 +01:00

2011-08-14 12:17:30 +01:00

constant

Thermodynamics: Rationalization

2012-05-30 15:19:38 +01:00

system

ENh: Further changes to tutorials and source regarding

2012-05-08 13:32:56 +01:00

Allclean

chtMultiRegionFoam: updated thermodynamics

2010-11-02 18:57:39 +00:00

Allrun

BUG: Allrun: wrong redirect

2012-02-29 10:30:50 +00:00

makeCellSets.setSet

chtMultiRegionFoam: updated thermodynamics

2010-11-02 18:57:39 +00:00

README.txt

ENH: README.txt: description of directional cht

2012-02-29 11:09:16 +00:00

README.txt

To run with directional thermo:

- compile chtMultiRegionFoam/solid/setRegionSolidFields.H with

    tmp<volSymmTensorField> tkappa = thermo.directionalK();
    const volSymmTensorField& kappa = tkappa();

- change in e.g. heater:

    - in constant/heater/solidThermophysicalProperties:

        thermoType directionalKSolidThermo;

    - in 0/heater/T:

        K               directionalSolidThermo;