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programmer's documentation
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Variables | |
integer, save | nfrlag |
number of boundary zones More... | |
integer, save | injcon |
activates (=1) or not (=0) the continuous injection of particles. this option allows to inject particles continuously during the duration of the Lagrangian time step dtp rather than only once at the beginning of the Lagrangian iteration. It helps avoiding the fractioning of the particles cloud close to the injection areas. More... | |
integer, dimension(nflagm), save | ilflag |
list of number of boundary zones More... | |
integer, dimension(nflagm), save | iusncl |
for all the nfrlag boundary zones previously identified, the number of classes nbclas (a class is a set of particles sharing the same physical properties and the same characteristics concerning the injection in the calculation domain) of entering particles is given: iusncl(izone) = nbclas . By default, the number of particle classes is zero. The maximum number of classes is nflagm (parameter stored in lagpar, whose default value is 20). More... | |
integer, dimension(nflagm), save | iusclb |
for all the nfrlag boundary zones previously identified, a particle boundary condition type is given. The categories of particle boundary condition types are marked out by the key words ientrl, isortl, irebol, idepo1, idepo2, iencrl. More... | |
integer, dimension(nflagm), save | iusmoy |
mean over a zone (if mean per zones is activated) More... | |
integer, dimension(:,:,:), allocatable | iuslag |
Some pieces of information must be given for each particle class associated with an injection zone. The first part consists in integers contained in the array iuslag. There are at the most ndlaim integers. This data must be provided for each class iclas and each particle injection zone izone . They are marked out by means of "pointers": More... | |
double precision, dimension(nflagm), save | deblag |
massic flow rate for a boudary zone More... | |
integer, save | ijnbp |
number of particles per class and per boudary zone More... | |
integer, save | ijfre |
injection frequency (if < 0 : particle are introduced only at first iteration More... | |
integer, save | ijuvw |
velocity condition type: More... | |
integer, save | ijprpd |
integer, save | ijprtp |
integer, save | ijprdp |
type of user profiles in uslag2: More... | |
integer, save | irawcl |
type of coal initial composition (if iphyla=2) More... | |
integer, save | inuchl |
coal number of the particle (if iphyla=2) More... | |
integer, save | iclst |
number of the statistics group More... | |
double precision, dimension(:,:,:), allocatable | ruslag |
some pieces of information must be given for each particle class associated with an injection zone. The second and last part consists in real numbers contained in the array ruslag. There are at the most ndlagm such real numbers. This data must be provided for each class iclas and each particle injection zone izone . They are marked out by means of "pointers": More... | |
integer, save | iuno |
particle velocity magnitude More... | |
integer, save | iupt |
particle u component by class and zone More... | |
integer, save | ivpt |
particle v component by class and zone More... | |
integer, save | iwpt |
particle w component by class and zone More... | |
integer, save | itpt |
particle temperature More... | |
integer, save | idpt |
particle diameter More... | |
integer, save | ivdpt |
particle diameter variance More... | |
integer, save | iropt |
density More... | |
integer, save | icpt |
particle specific heat More... | |
integer, save | ipoit |
particle weight More... | |
integer, save | idebt |
flow rate More... | |
integer, save | iepsi |
particle emissivity More... | |
integer, dimension(nlayer), save | ihpt |
particle temperature More... | |
integer, save | ifrmwt |
water mass fraction in coal particles More... | |
integer, dimension(nlayer), save | ifrmch |
active coal mass fraction in coal particles More... | |
integer, dimension(nlayer), save | ifrmck |
coke mass fraction in coal particles More... | |
integer, save | irdck |
diameter of shrinking core More... | |
integer, save | ird0p |
initial particle diameter (for coal particles) More... | |
integer, dimension(nlayer), save | irhock0 |
coke density after pyrolysis (for coal particles) More... | |
integer, dimension(nozppm), 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). More... | |
integer, dimension(nozppm), save | icalke |
condition type turbulence indicator More... | |
double precision, dimension(nozppm), save | xintur |
turbulent intensity (k=1.5(uref*xintur)**2) More... | |
double precision, dimension(nozppm), save | dh |
hydraulic diameter More... | |
integer, save | nozapm |
index of maximum reached boundary zone More... | |
integer, save | nzfppp |
number of boundary zones on current process More... | |
integer, dimension(nbzppm), save | ilzppp |
list of boundary zones index More... | |
double precision, dimension(nflagm), save deblag |
massic flow rate for a boudary zone
double precision, dimension(nozppm), save dh |
hydraulic diameter
integer, dimension(nozppm), save icalke |
condition type turbulence indicator
integer, save iclst |
number of the statistics group
integer, save icpt |
particle specific heat
integer, save idebt |
flow rate
integer, save idpt |
particle diameter
integer, save iepsi |
particle emissivity
integer, dimension(nlayer), save ifrmch |
active coal mass fraction in coal particles
integer, dimension(nlayer), save ifrmck |
coke mass fraction in coal particles
integer, save ifrmwt |
water mass fraction in coal particles
integer, dimension(nlayer), save ihpt |
particle temperature
integer, save ijfre |
injection frequency (if < 0 : particle are introduced only at first iteration
integer, save ijnbp |
number of particles per class and per boudary zone
integer, save ijprdp |
integer, save ijprpd |
integer, save ijprtp |
integer, save ijuvw |
integer, dimension(nflagm), save ilflag |
list of number of boundary zones
integer, dimension(nbzppm), save ilzppp |
list of boundary zones index
integer, save injcon |
activates (=1) or not (=0) the continuous injection of particles. this option allows to inject particles continuously during the duration of the Lagrangian time step dtp rather than only once at the beginning of the Lagrangian iteration. It helps avoiding the fractioning of the particles cloud close to the injection areas.
integer, save inuchl |
coal number of the particle (if iphyla=2)
integer, save ipoit |
particle weight
integer, dimension(nozppm), 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).
integer, save irawcl |
integer, save ird0p |
initial particle diameter (for coal particles)
integer, save irdck |
diameter of shrinking core
integer, dimension(nlayer), save irhock0 |
coke density after pyrolysis (for coal particles)
integer, save iropt |
density
integer, save itpt |
particle temperature
integer, save iuno |
particle velocity magnitude
integer, save iupt |
particle u component by class and zone
integer, dimension(nflagm), save iusclb |
for all the nfrlag boundary zones previously identified, a particle boundary condition type is given. The categories of particle boundary condition types are marked out by the key words ientrl, isortl, irebol, idepo1, idepo2, iencrl.
izone
permanently exit the calculation domain. - if iusclb(izone) = irebol, the particles undergo an elastic rebound on the boundary zone izone
. - if iusclb(izone) = idepo1, the particles settle permanently on the boundary zone izone
. These particles leave the calculation domain and are permanently erased from the calculation - if iusclb(izone) = idepo2, the particles settle definitevely on the boundary zone izone
and they are kept in the calculationizone
and they are kept in the calculation domain: the particles do not disappear after touching the boundary zone. However, using idepo2 type zones necessitates more memory than using idepo1 type zones.izone
. The slagging is a idepo1 type deposit of the coal particle if a certain criterion is respected. Otherwise, the coal particle rebounds (irebol type behaviour). This boundary condition type is available if iencra = 1. A limit temperature tprenc, a critical viscosity visref and the coal composition in mineral matters must be given in the subroutine uslag1. integer, dimension(:,:,:), allocatable iuslag |
Some pieces of information must be given for each particle class associated with an injection zone. The first part consists in integers contained in the array iuslag. There are at the most ndlaim integers. This data must be provided for each class iclas
and each particle injection zone izone
. They are marked out by means of "pointers":
integer, dimension(nflagm), save iusmoy |
mean over a zone (if mean per zones is activated)
integer, dimension(nflagm), save iusncl |
for all the nfrlag boundary zones previously identified, the number of classes nbclas
(a class is a set of particles sharing the same physical properties and the same characteristics concerning the injection in the calculation domain) of entering particles is given: iusncl(izone) = nbclas
. By default, the number of particle classes is zero. The maximum number of classes is nflagm (parameter stored in lagpar, whose default value is 20).
integer, save ivdpt |
particle diameter variance
integer, save ivpt |
particle v component by class and zone
integer, save iwpt |
particle w component by class and zone
integer, save nfrlag |
number of boundary zones
integer, save nozapm |
index of maximum reached boundary zone
integer, save nzfppp |
number of boundary zones on current process
double precision, dimension(:,:,:), allocatable ruslag |
some pieces of information must be given for each particle class associated with an injection zone. The second and last part consists in real numbers contained in the array ruslag. There are at the most ndlagm such real numbers. This data must be provided for each class iclas
and each particle injection zone izone
. They are marked out by means of "pointers":
double precision, dimension(nozppm), save xintur |
turbulent intensity (k=1.5(uref*xintur)**2)