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integer(c_int), dimension(:), pointer, save | iqimp |
| imposed flow zone indicator in a way which is similar to the process described in the framework of the EBU module, the user chooses for every inlet face to impose the mass flow or not (iqimp(izone)=1 or 0). If the mass flow is imposed, the user must set the air mass flow value qimpat(izone), its direction in rcodcl(ifac,iu), rcodcl(ifac,iv) and rcodcl(ifac,iw) and the incoming air temperature timpat(izone) in Kelvin. If the velocity is imposed, he has to set rcodcl(ifac,iu), rcodcl(ifac,iv), and rcodcl(ifac,iw).
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integer(c_int), dimension(:), pointer, save | icalke |
| condition type turbulence indicator
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real(c_double), dimension(:), pointer, save | xintur |
| turbulent intensity (k=1.5(uref*xintur)**2)
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real(c_double), dimension(:), pointer, save | dh |
| hydraulic diameter
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integer, save | nozapm |
| index of maximum reached boundary zone
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integer, save | nzfppp |
| number of boundary zones on current process
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integer, dimension(nozppm), save | ilzppp |
| list of boundary zones index
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integer(c_int), dimension(:), pointer, save iqimp |
imposed flow zone indicator in a way which is similar to the process described in the framework of the EBU module, the user chooses for every inlet face to impose the mass flow or not (iqimp(izone)=1 or 0). If the mass flow is imposed, the user must set the air mass flow value qimpat(izone), its direction in rcodcl(ifac,iu), rcodcl(ifac,iv) and rcodcl(ifac,iw) and the incoming air temperature timpat(izone) in Kelvin. If the velocity is imposed, he has to set rcodcl(ifac,iu), rcodcl(ifac,iv), and rcodcl(ifac,iw).