Difference between revisions of "Auto-ignition CH 4/Air flame with scheme GRI12"

From orch
Jump to: navigation, search
(Key parameters)
Line 21: Line 21:
 
                 /*Evaporation latent heat*/ 0.0));
 
                 /*Evaporation latent heat*/ 0.0));
  
Characteristics of the burned gases inlet : (This inlet should always be present as it defines the mixing time, the time step and the iteration number.) The mass flow rate is put to 0 in order not to consider this inlet.
+
Characteristics of the burned gases inlet : (This inlet should always be present as it defines the mixing time, the time step and the iteration number.) It is crucial that the mass flow rate of any inlet is always different from 0 even if in this case "BurnedGases" is set to false to not consider this inlet.
   listInlets.push_back(new Characteristics_MultipleInlet(
+
 
                /*Temperature*/ 1000,
+
    
                /*Pressure*/ 1E+05,
+
InletBurnedGases:
                /*Mass flow rate*/ 0,
+
  Temperature: 1000
                /*Xk*/ "",
+
  Pressure: 1E+05
                /*Yk*/ "",
+
  MassFlowRate: 0.1
                /*Evaporation model*/ false,
+
  Xk: N2:0.76308, O2:0.093573, H2O:0.072355, CO2:0.070468
                /*Droplet diameter*/ 0.0,
+
  # Yk:
                /*Evaporation time*/ 0.0,
+
  EvaporationModel: false
                /*Liquid density*/ 0.0,
+
  DropletDiameter: 0.0
                /*Evaporation latent heat*/ 0.0));
+
  EvaporationTime: 0.0
                /*mixing_time*/ 10000,
+
  LiquidDensity: 0.0
                /*delta_t*/ 1e-05,
+
  EvaporationLatentHeat: 0.0
                /*nbIterations*/ 150000,
+
 
                /*Useless variable*/ true));
+
  MixingTime: 10000
 +
  TimeStep: 1e-05
 +
  IterationNumber: 150000
 +
  BurnedGases: false
 +
  EMST: true
 +
 
  
 
== '''Results''' ==
 
== '''Results''' ==

Revision as of 10:24, 30 April 2025

Objectives

The AutoIgnition_GRI12 test case shows an example of CH4/Air auto-ignition using the GRI12 mechanism.

Key parameters

We are at atmospheric pressure, and the fuel is injected in its gaseous form (no evaporation model). We are using the stochastic configuration and we follow only one premixed CH4/Air fluid particule for ignition.


Characteristics of the premixed particule (Phi = 1) :

  listInlets.push_back(new MultipleInlet(
               /*Temperature*/ 1000,
               /*Pressure*/ 1E+05,
               /*Mass flow rate*/ 0.1,
               /*Xk*/ "",
               /*Yk*/ "CH4:0.0550661, O2:0.220264, N2:0.72466990",
               /*Evaporation model*/ false,
               /*Droplet diameter*/ 0.0,
               /*Evaporation time*/ 0.0,
               /*Liquid density*/ 0.0,
               /*Evaporation latent heat*/ 0.0));

Characteristics of the burned gases inlet : (This inlet should always be present as it defines the mixing time, the time step and the iteration number.) It is crucial that the mass flow rate of any inlet is always different from 0 even if in this case "BurnedGases" is set to false to not consider this inlet.


InletBurnedGases:

 Temperature: 1000
 Pressure: 1E+05
 MassFlowRate: 0.1
 Xk: N2:0.76308, O2:0.093573, H2O:0.072355, CO2:0.070468
 # Yk:
 EvaporationModel: false
 DropletDiameter: 0.0
 EvaporationTime: 0.0
 LiquidDensity: 0.0
 EvaporationLatentHeat: 0.0
 MixingTime: 10000
 TimeStep: 1e-05
 IterationNumber: 150000
 BurnedGases: false
 EMST: true


Results

Compute Trajectories

AutoIgnition results.png