programmer's documentation
Modules | Variables
Specific physics
Collaboration diagram for Specific physics:

Modules

 Particle deposition sub-model
 
 Reentrained model
 
 Precipitation model
 
 Clogging model
 

Variables

integer, save iphyla
 activates (>0) or deactivates (=0) the physical models associated to the particles: More...
 
integer, save itpvar
 activation (=1) or not (=0) of an evolution equation on the particle temperature (in degrees Celsius). Useful if iphyla=1 and if there is a thermal scalar associated with the continuous phase More...
 
integer, save idpvar
 activation (=1) or not (=0) of an evolution equation on the particle diameter. Useful if iphyla = 1 More...
 
integer, save impvar
 activation (=1) or not (=0) of an evolution equation on the particle mass Useful if si iphyla = 1 More...
 
double precision, save tpart
 initialization temperature (in degree Celsius) for the particles already present in the calculation domain when an evolution equation on the particle temperature is activated during a calculation (iphyla = 1 and itpvar = 1). Useful if isuila = 1 and itpvar = 0 in the previous calculation More...
 
double precision, save cppart
 initialization value for the specific heat ( $ J.kg^{-1}.K^{-1} $) of the particles already present in the calculation domain when an evolution equation on the particle temperature is activated during a calculation (iphyla = 1 and itpvar = 1). Useful if isuila = 1 and itpvar = 0 in the previous calculation More...
 

Detailed Description

Variable Documentation

double precision, save cppart

initialization value for the specific heat ( $ J.kg^{-1}.K^{-1} $) of the particles already present in the calculation domain when an evolution equation on the particle temperature is activated during a calculation (iphyla = 1 and itpvar = 1). Useful if isuila = 1 and itpvar = 0 in the previous calculation

integer, save idpvar

activation (=1) or not (=0) of an evolution equation on the particle diameter. Useful if iphyla = 1

integer, save impvar

activation (=1) or not (=0) of an evolution equation on the particle mass Useful if si iphyla = 1

integer, save iphyla

activates (>0) or deactivates (=0) the physical models associated to the particles:

  • = 1: allows to associate with the particles evolution equations on their temperature (in degrees Celsius), their diameter and their mass
  • = 2: the particles are pulverised coal particles. Evolution equations on temperature (in degree Celsius), mass of reactive coal, mass of char and diameter of the shrinking core are associated with the particles. This option is available only if the continuous phase represents a pulverised coal flame.
integer, save itpvar

activation (=1) or not (=0) of an evolution equation on the particle temperature (in degrees Celsius). Useful if iphyla=1 and if there is a thermal scalar associated with the continuous phase

double precision, save tpart

initialization temperature (in degree Celsius) for the particles already present in the calculation domain when an evolution equation on the particle temperature is activated during a calculation (iphyla = 1 and itpvar = 1). Useful if isuila = 1 and itpvar = 0 in the previous calculation