Creating ThermoPhase, Kinetics, and Transport objects ===================================================== The following program demonstrates the general method for creating the following object types: - `ThermoPhase` - represents the thermodynamic properties of mixtures containing one or more species) - `Kinetics` - represents a kinetic mechanism involving one or more phases) - `Transport` - computes transport properties for a `ThermoPhase` This program uses "factory" functions to create derived objects objects of the appropriate type which are specified in the input file `gri30.cti`. .. literalinclude:: demo1b.cpp :language: c++ This program produces the output below:: Net reaction rates for reactions involving CO2 11 CO + O (+M) <=> CO2 (+M) 3.54150724e-08 13 HCO + O <=> CO2 + H 1.95680014e-11 29 CH2CO + O <=> CH2 + CO2 3.45366988e-17 30 CO + O2 <=> CO2 + O 2.70102522e-13 41 CO2 + 2 H <=> CO2 + H2 3.45305359e-08 98 CO + OH <=> CO2 + H 6.46935907e-03 119 CO + HO2 <=> CO2 + OH 1.86807529e-10 131 CH + CO2 <=> CO + HCO 9.41365695e-14 151 CH2(S) + CO2 <=> CH2 + CO2 3.11161382e-12 152 CH2(S) + CO2 <=> CH2O + CO 2.85339329e-11 225 NCO + O2 <=> CO2 + NO 3.74127282e-19 228 NCO + NO <=> CO2 + N2 6.25672779e-14 261 HNCO + O <=> CO2 + NH 6.84524890e-13 267 HNCO + OH <=> CO2 + NH2 7.78871264e-10 279 CO2 + NH <=> CO + HNO -3.30333658e-09 281 NCO + NO2 <=> CO2 + N2O 2.14286686e-20 282 CO2 + N <=> CO + NO 6.42658283e-10 289 CH2 + O2 => CO2 + 2 H 1.51032319e-18 304 CH2CHO + O => CH2 + CO2 + H 1.00331734e-19 T viscosity thermal conductivity ------ ----------- -------------------- 300.0 1.6658e-05 4.2089e-02 400.0 2.0861e-05 5.2537e-02 500.0 2.4681e-05 6.2451e-02 600.0 2.8218e-05 7.2157e-02 700.0 3.1534e-05 8.1754e-02