3. Conclusions

The approach described here can be applied to all systems of interest at both industrial, basic research and applied research levels. It goes far beyond the framework of H ₂ /O ₂ , H ₂ /air, CH ₄ /O ₂ , CH ₄ /air systems, and can be applied to the combustion of energetic materials (HMX, RDX, TNT, etc.), the combustion of metals (Al, Na, Mg, etc.), combustion of automotive, aeronautical and space fuels and biofuels (gasoline, diesel, biodiesel, kerosene, SPK, energetic ionic liquids), gasification (coal, biomass, waste, etc.), incineration, steam reforming of methane to produce hydrogen (SMR process), formation and emission...

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Bibliography

(1) - STEINFELD (J.I.), FRANCISCO (J.S.), HASE (W.L.) - Chemical kinetics and dynamics. - Second edition. Prentice Hall (1998).
(2) - GARDINER (W.C.) - Gas-phase combustion chemistry. - Second edition. Springer (2000).