Abstract

Based on the thermodynamic analysis of the combustion process, a new model of the laminar combustion process is constructed. When controlling the temperature at the inlet (an increase in the temperature at the inlet to the combustion chamber), depending on the structure of the standard chemical potential, high-frequency oscillations of the thermal explosion resonance occur. Resonance regimes are modeled during heat pumping, the nature of their nucleation is established depending on the structure of the standard chemical potential, and numerical experiments on the occurrence of these modes are presented.

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