programmer's documentation
Variables
Source terms

Variables

integer(c_int), pointer, save ltsdyn
 activation (=1) or not (=0) of the two-way coupling on the dynamics of the continuous phase. Useful if iilagr = 2 and iccvfg = 0 More...
 
integer(c_int), pointer, save ltsmas
 activation (=1) or not (=0) of the two-way coupling on the mass. Useful if iilagr = 2, physical_model = 1 and impvar = 1 More...
 
integer(c_int), pointer, save ltsthe
 if physical_model = 1 and itpvar = 1, ltsthe activates (=1) or not (=0) the two-way coupling on temperature. if physical_model = 2, ltsthe activates (=1) or not (=0) the two-way coupling on the eulerian variables related to pulverised coal combustion. Useful if iilagr = 2 More...
 
integer(c_int), pointer, save itsvx
 explicit source term for the continuous phase X velocity More...
 
integer(c_int), pointer, save itsvy
 explicit source term for the continuous phase Y velocity More...
 
integer(c_int), pointer, save itsvz
 explicit source term for the continuous phase Z velocity More...
 
integer(c_int), pointer, save itsli
 implicit source term for the continuous phase velocity and for the turbulent energy if the $k-\varepsilon$ model is used More...
 
integer(c_int), pointer, save itske
 explicit source term for the turbulent dissipation and the turbulent energy if the $k-\varepsilon$ turbulence model is used for the continuous phase More...
 
integer(c_int), pointer, save itsr11
 source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase More...
 
integer(c_int), pointer, save itsr12
 source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase More...
 
integer(c_int), pointer, save itsr13
 source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase More...
 
integer(c_int), pointer, save itsr22
 source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase More...
 
integer(c_int), pointer, save itsr23
 source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase More...
 
integer(c_int), pointer, save itsr33
 source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase More...
 
integer(c_int), pointer, save itste
 explicit thermal source term for the thermal scalar of the continuous phase More...
 
integer(c_int), pointer, save itsti
 implicit thermal source term for the thermal scalar of the continuous phase More...
 
integer(c_int), pointer, save itsmas
 mass source term More...
 
integer(c_int), dimension(:), pointer, save itsmv1
 source term for the light volatile matters More...
 
integer(c_int), dimension(:), pointer, save itsmv2
 source term for the heavy volatile matters More...
 
integer(c_int), pointer, save itsco
 source term for the carbon released during heterogeneous combustion More...
 

Detailed Description

Variable Documentation

◆ itsco

integer(c_int), pointer, save itsco

source term for the carbon released during heterogeneous combustion

◆ itske

integer(c_int), pointer, save itske

explicit source term for the turbulent dissipation and the turbulent energy if the $k-\varepsilon$ turbulence model is used for the continuous phase

◆ itsli

integer(c_int), pointer, save itsli

implicit source term for the continuous phase velocity and for the turbulent energy if the $k-\varepsilon$ model is used

◆ itsmas

integer(c_int), pointer, save itsmas

mass source term

◆ itsmv1

integer(c_int), dimension(:), pointer, save itsmv1

source term for the light volatile matters

◆ itsmv2

integer(c_int), dimension(:), pointer, save itsmv2

source term for the heavy volatile matters

◆ itsr11

integer(c_int), pointer, save itsr11

source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase

◆ itsr12

integer(c_int), pointer, save itsr12

source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase

◆ itsr13

integer(c_int), pointer, save itsr13

source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase

◆ itsr22

integer(c_int), pointer, save itsr22

source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase

◆ itsr23

integer(c_int), pointer, save itsr23

source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase

◆ itsr33

integer(c_int), pointer, save itsr33

source term for the Reynolds stress and the turbulent dissipation if the $R_{ij}-\varepsilon$ turbulence model is used for the continuous phase

◆ itste

integer(c_int), pointer, save itste

explicit thermal source term for the thermal scalar of the continuous phase

◆ itsti

integer(c_int), pointer, save itsti

implicit thermal source term for the thermal scalar of the continuous phase

◆ itsvx

integer(c_int), pointer, save itsvx

explicit source term for the continuous phase X velocity

◆ itsvy

integer(c_int), pointer, save itsvy

explicit source term for the continuous phase Y velocity

◆ itsvz

integer(c_int), pointer, save itsvz

explicit source term for the continuous phase Z velocity

◆ ltsdyn

integer(c_int), pointer, save ltsdyn

activation (=1) or not (=0) of the two-way coupling on the dynamics of the continuous phase. Useful if iilagr = 2 and iccvfg = 0

◆ ltsmas

integer(c_int), pointer, save ltsmas

activation (=1) or not (=0) of the two-way coupling on the mass. Useful if iilagr = 2, physical_model = 1 and impvar = 1

◆ ltsthe

integer(c_int), pointer, save ltsthe

if physical_model = 1 and itpvar = 1, ltsthe activates (=1) or not (=0) the two-way coupling on temperature. if physical_model = 2, ltsthe activates (=1) or not (=0) the two-way coupling on the eulerian variables related to pulverised coal combustion. Useful if iilagr = 2