We have developed specific procedures that utilize the G-Scheme modal decomposition to carry out the sensitivity analysis along-with the numerical integration of chemical kinetics systems, so as to under- stand the roles of the most important reactions, and to identify the most important reaction paths of the processes. The sensitivity information allow to generate skeletal kinetic mechanisms for chemical kinetics mechanism. The procedures are based on participation indices constructed from the G-Scheme dynamics decomposition, but can be applied to databases generated by any numerical solver. The effectiveness of these procedures is demonstrated with reference to the auto-ignition problem of a homogeneous hydro- gen/air mixture.
Sensitivity analysis and mechanism simplification using the G-Scheme framework / Grenga, Temistocle; Paolucci, Samuel; Valorani, Mauro. - In: COMBUSTION AND FLAME. - ISSN 0010-2180. - STAMPA. - 189:(2018), pp. 275-287. [10.1016/j.combustflame.2017.10.039]
Sensitivity analysis and mechanism simplification using the G-Scheme framework
Valorani, MauroConceptualization
2018
Abstract
We have developed specific procedures that utilize the G-Scheme modal decomposition to carry out the sensitivity analysis along-with the numerical integration of chemical kinetics systems, so as to under- stand the roles of the most important reactions, and to identify the most important reaction paths of the processes. The sensitivity information allow to generate skeletal kinetic mechanisms for chemical kinetics mechanism. The procedures are based on participation indices constructed from the G-Scheme dynamics decomposition, but can be applied to databases generated by any numerical solver. The effectiveness of these procedures is demonstrated with reference to the auto-ignition problem of a homogeneous hydro- gen/air mixture.| File | Dimensione | Formato | |
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