PROOF SUPPORTING A SIMPLIFIED APPROACH TO MODELING HIGH-TEMPERATURE COMBUSTION CHEMISTRY

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ARPNA SWARAJ TRIPATHI ASIT DUTTA

Abstract

Now we were presenting the paper, which may be consisting of thousands of hydrocarbon components in Real fuels. We will enhance the systematic procedure and at high temperature the internal structure of the oxidation process. In huge range of conditions huge hydrocarbon molecules will undergo decomposition process and formed as small sets of low level molecular weightswith the help of fragmentation process.In other situations like conventional petroleum-derived fuels the decomposition is reduced into large numbers or clusters. The elemental conservation can be formed as two ways, one is thermodynamics and other one is chemical kinetics.Thermodynamics decomposition is known as thermal decomposition which is a weak product of the thermodynamic condition. The oxidizer composition and fuel composition are direct relevance to flames and high temperature detonation Based on these findings, we were intended to inaugurate hybrid chemistry (HyChem) approach to exhibiting high-temperature oxidation of real fuels: the kinetics of thermal or oxidative thermal decomposition of the fuel is suffered using kinetic parameters derived from tryouts, while the oxidation of the decomposed fragments is described by a detailed reaction model. Sample results will be given that supports this modeling approaches.

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