CAMP 1.0.0
Chemistry Across Multiple Phases
Data Types | Modules | Macros | Functions/Subroutines
rxn_troe.F90 File Reference

The camp_rxn_troe module. More...

Go to the source code of this file.

Data Types

type  camp_rxn_troe::rxn_troe_t
 Generic test reaction data type. More...
 

Modules

module  camp_rxn_troe
 The rxn_troe_t type and associated functions.
 

Macros

#define NUM_REACT_   this%condensed_data_int(1)
 
#define NUM_PROD_   this%condensed_data_int(2)
 
#define K0_A_   this%condensed_data_real(1)
 
#define K0_B_   this%condensed_data_real(2)
 
#define K0_C_   this%condensed_data_real(3)
 
#define KINF_A_   this%condensed_data_real(4)
 
#define KINF_B_   this%condensed_data_real(5)
 
#define KINF_C_   this%condensed_data_real(6)
 
#define FC_   this%condensed_data_real(7)
 
#define N_   this%condensed_data_real(8)
 
#define SCALING_   this%condensed_data_real(9)
 
#define CONV_   this%condensed_data_real(10)
 
#define NUM_INT_PROP_   2
 
#define NUM_REAL_PROP_   10
 
#define NUM_ENV_PARAM_   1
 
#define REACT_(x)
 
#define PROD_(x)
 
#define DERIV_ID_(x)
 
#define JAC_ID_(x)
 
#define YIELD_(x)
 

Functions/Subroutines

type(rxn_troe_t) function, pointer camp_rxn_troe::constructor ()
 Constructor for Troe reaction.
 
subroutine camp_rxn_troe::initialize (this, chem_spec_data, aero_rep, n_cells)
 Initialize the reaction data, validating component data and loading any required information into the condensed data arrays for use during solving.
 
subroutine camp_rxn_troe::finalize (this)
 Finalize the reaction.
 
subroutine camp_rxn_troe::finalize_array (this)
 Finalize an array of reactions.
 

Detailed Description

The camp_rxn_troe module.

Definition in file rxn_troe.F90.

Macro Definition Documentation

◆ CONV_

#define CONV_   this%condensed_data_real(10)

◆ DERIV_ID_

#define DERIV_ID_ ( x)
Value:
1this%condensed_data_int(num_int_prop_ + num_react_ + num_prod_ + x)

◆ FC_

#define FC_   this%condensed_data_real(7)

◆ JAC_ID_

#define JAC_ID_ ( x)
Value:
1this%condensed_data_int(num_int_prop_ + 2*(num_react_+num_prod_) + x)

◆ K0_A_

#define K0_A_   this%condensed_data_real(1)

◆ K0_B_

#define K0_B_   this%condensed_data_real(2)

◆ K0_C_

#define K0_C_   this%condensed_data_real(3)

◆ KINF_A_

#define KINF_A_   this%condensed_data_real(4)

◆ KINF_B_

#define KINF_B_   this%condensed_data_real(5)

◆ KINF_C_

#define KINF_C_   this%condensed_data_real(6)

◆ N_

#define N_   this%condensed_data_real(8)

◆ NUM_ENV_PARAM_

#define NUM_ENV_PARAM_   1

◆ NUM_INT_PROP_

#define NUM_INT_PROP_   2

◆ NUM_PROD_

#define NUM_PROD_   this%condensed_data_int(2)

◆ NUM_REACT_

#define NUM_REACT_   this%condensed_data_int(1)

◆ NUM_REAL_PROP_

#define NUM_REAL_PROP_   10

◆ PROD_

#define PROD_ ( x)
Value:
1this%condensed_data_int(num_int_prop_ + num_react_ + x)

◆ REACT_

#define REACT_ ( x)
Value:
1this%condensed_data_int(num_int_prop_ + x)

◆ SCALING_

#define SCALING_   this%condensed_data_real(9)

◆ YIELD_

#define YIELD_ ( x)
Value:
1this%condensed_data_real(num_real_prop_ + x)
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