|
CAMP 1.0.0
Chemistry Across Multiple Phases
|
The camp_rxn_troe module. More...
Go to the source code of this file.
Data Types | |
| interface | 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) this%condensed_data_int(NUM_INT_PROP_ + x) |
| #define | PROD_(x) this%condensed_data_int(NUM_INT_PROP_ + NUM_REACT_ + x) |
| #define | DERIV_ID_(x) this%condensed_data_int(NUM_INT_PROP_ + NUM_REACT_ + NUM_PROD_ + x) |
| #define | JAC_ID_(x) this%condensed_data_int(NUM_INT_PROP_ + 2*(NUM_REACT_+NUM_PROD_) + x) |
| #define | YIELD_(x) this%condensed_data_real(NUM_REAL_PROP_ + x) |
Functions/Subroutines | |
| type(rxn_troe_t) function, pointer | camp_rxn_troe::constructor () |
| Constructor for Troe reaction. More... | |
| subroutine | camp_rxn_troe::initialize (this, chem_spec_data, aero_phase, 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. More... | |
| subroutine | camp_rxn_troe::finalize (this) |
| Finalize the reaction. More... | |
| subroutine | camp_rxn_troe::finalize_array (this) |
| Finalize an array of reactions. More... | |
The camp_rxn_troe module.
Definition in file rxn_troe.F90.
| #define CONV_ this%condensed_data_real(10) |
| #define DERIV_ID_ | ( | x | ) | this%condensed_data_int(NUM_INT_PROP_ + NUM_REACT_ + NUM_PROD_ + x) |
| #define FC_ this%condensed_data_real(7) |
| #define JAC_ID_ | ( | x | ) | this%condensed_data_int(NUM_INT_PROP_ + 2*(NUM_REACT_+NUM_PROD_) + x) |
| #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 N_ this%condensed_data_real(8) |
| #define NUM_ENV_PARAM_ 1 |
| #define NUM_INT_PROP_ 2 |
| #define NUM_PROD_ this%condensed_data_int(2) |
| #define NUM_REACT_ this%condensed_data_int(1) |
| #define NUM_REAL_PROP_ 10 |
| #define PROD_ | ( | x | ) | this%condensed_data_int(NUM_INT_PROP_ + NUM_REACT_ + x) |
| #define REACT_ | ( | x | ) | this%condensed_data_int(NUM_INT_PROP_ + x) |
| #define SCALING_ this%condensed_data_real(9) |
| #define YIELD_ | ( | x | ) | this%condensed_data_real(NUM_REAL_PROP_ + x) |