Difference between revisions of "Multi-inlet CH 4/Air flame with scheme GRI12"

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(DRGEP Step)
(DRGEP Step)
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After this step, by comparing the reference trajectories with the new ones, we choose to delete 13 reactions, so the next step is performed with 14 species and 29 reactions. Indeed, with 28 and less species, the final state of the trajectories is not well predicted and difficult to represent even with the optimisation step.
 
After this step, by comparing the reference trajectories with the new ones, we choose to delete 13 reactions, so the next step is performed with 14 species and 29 reactions. Indeed, with 28 and less species, the final state of the trajectories is not well predicted and difficult to represent even with the optimisation step.
  
[[File:CO2_14species_28R.png]] [[File:CO2_14species_29R.png]]
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[[File:CO2_14species_28R.png|525px]] [[File:CO2_14species_29R.png|550px]]
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Comparison between the reference trajectory (in black) of the CO2 species and the trajectory computed with the reduced mechanism (in red) with 14 transported species and 28 reactions (on the left) and 29 reactions (on the right)
  
 
=== QSS Step ===
 
=== QSS Step ===

Revision as of 15:15, 21 June 2017

Objectives

The Stochastic_GRI12 test case shows a reduction of the GRI1.2 scheme for a 0D 2-inlet configuration. Started with 32 species and 177 reactions, we reduce to -- species and -- reactions.

Principle

Key parameters

Results

DRGEP Step

While running the DRGEP species step, your terminal should display the following information :

Reading initial mechanism "mechanisms/gri12.xml" with description "gri12" ----------> OK
Number of species: 32
Number of reactions: 177
Set the mole fraction of inlet 0
Set the mole fraction of inlet 1
Set the mole fraction of inlet 2


Composition to enter  For the equilibrium computation to get the Burned gases 
Compo_H_mixed 334274
X_O2: 0.16931
X_H2O: 0.019848
X_CH4: 0.0418227
X_CO2: 0.0193304
X_N2: 0.749689
T_mixed 1063.63
Nb particles  0  500
Nb particles  1  17
Nb particles  2  200
Nmix 35
Set the mole fraction of inlet 0
Set the mole fraction of inlet 1
Set the mole fraction of inlet 2


followed by the the species associated with their rank :

0  AR
2.3181e-16  C
2.44619e-09  CH
2.59722e-09  HCCOH
5.68614e-09  C2H
1.49031e-08  CH2CO
1.27776e-07  C2H2
2.68843e-07  HCCO
3.69712e-05  C2H3
7.25527e-05  CH2OH
0.00365571  H2O2
0.00537274  C2H4
0.00537274  C2H5
0.00543792  CH2(S)
0.00598963  CH2
0.0100589  CH3OH
0.0179344  H2
0.0199904  HCO
0.0576166  O
0.145908  CH3O
0.342307  H
0.373973  C2H6
0.460535  OH
0.483807  CH2O
0.999998  HO2
0.999999  CH3
1  O2
1  H2O
1  CH4
1  CO
1  CO2
1  N2


From a detailed 32 species scheme, we obtain reduced schemes (31 to 11 species). and we choose the one with 14 species for the next step. With 13 species, the trajectories of the targets and the temperature are too different from the detailed ones to be easily optimised.

CO2 13species.png CO2 14species.png

Comparison between the reference trajectory (in black) of the CO2 species and the trajectory computed with the reduced mechanism (in red) with 13 transported species (on the left) and 14 transported species (on the right)


From the reduced scheme with 14 species, the DRGEP reaction step displays the associated 42 reactions (forward, reverse and global) with their rank :


[insert screen shot]

After this step, by comparing the reference trajectories with the new ones, we choose to delete 13 reactions, so the next step is performed with 14 species and 29 reactions. Indeed, with 28 and less species, the final state of the trajectories is not well predicted and difficult to represent even with the optimisation step.

CO2 14species 28R.png CO2 14species 29R.png

Comparison between the reference trajectory (in black) of the CO2 species and the trajectory computed with the reduced mechanism (in red) with 14 transported species and 28 reactions (on the left) and 29 reactions (on the right)

QSS Step

Interactions with species H  with QSS Criteria 0.00707074
H2O:2  HO2:1  CH3:1  CH2O:2  CH3O:1  
Interactions with species O  with QSS Criteria 0.00347138
OH:1  H2O:1  HO2:1  CH3:1  CH2O:1  CH3O:1  
Interactions with species OH  with QSS Criteria 0.00238597
O:1  OH:2  HO2:1  CH3:2  HCO:2  CH2O:2  CH3O:1  
Interactions with species H2O  with QSS Criteria 0.0394215
H:2  O:1  HO2:1  CH3:1  HCO:2  
Interactions with species HO2  with QSS Criteria 0.0120837
H:1  O:1  OH:1  H2O:1  CH3:2  CH2O:1  
Interactions with species CH3  with QSS Criteria 0.0951441
H:1  O:1  OH:2  H2O:1  HO2:2  HCO:1  CH2O:1  
Interactions with species HCO  with QSS Criteria 0.00480146
OH:2  H2O:2  CH3:1  
Interactions with species CH2O  with QSS Criteria 0.178736
H:2  O:1  OH:2  HO2:1  CH3:1  
Interactions with species CH3O  with QSS Criteria 0.00520346
H:1  O:1  OH:1

We choose to put the species CH3O and HCO in QSS hypothesis due to their low QSS coefficient.

In order to obtain the trajectories of the 14-species 29-reactions reduced scheme with these 2 species in QSS hypothesis, we run the getQSSfile step and we obtain the following graphs :

Optimisation

Bibliography