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ANALYTIC COMBUSTION

Combustion involves change in the chemical state of a substance from a fuel state to a product state via a chemical reaction accompanied by release of heat energy. Design or performance evaluation of equipment also requires knowledge of the rate of change of state. This rate is governed by the laws of thermodynamics and by the empirical sciences of heat and mass transfer, chemical kinetics and fluid dynamics. Theoretical treatment of combustion requires integrated knowledge of these subjects and strong mathematical and numerical skills.Analytic Combustionis written for advanced undergraduates, graduate students and professionals in mechanical, aeronautical and chemical engineering. Topics were carefully selected and are presented to facilitate. | ANALYTIC COMBUSTION Combustion involves change in the chemical state of a substance from a fuel state to a product state via a chemical reaction accompanied by release of heat energy. Design or performance evaluation of equipment also requires knowledge of the rate of change of state. This rate is governed by the laws of thermodynamics and by the empirical sciences of heat and mass transfer chemical kinetics and fluid dynamics. Theoretical treatment of combustion requires integrated knowledge of these subjects and strong mathematical and numerical skills. Analytic Combustion is written for advanced undergraduates graduate students and professionals in mechanical aeronautical and chemical engineering. Topics were carefully selected and are presented to facilitate learning with emphasis on effective mathematical formulations and solution strategies. The book features more than 60 solved numerical problems and analytical derivations and nearly 145 end-of-chapter exercise problems. The presentation is gradual starting with thermodynamics of pure and mixture substances and chemical equilibrium and building to a uniquely strong chapter on application case studies. Professor Anil W. Date received his PhD in Heat Transfer from the Imperial College London. He has been a member of the Thermal Fluids Group of the Mechanical Engineering Department at the Indian Institute of Technology Bombay since 1973. Professor Date has taught both undergraduate and post-graduate courses in thermodynamics energy conversion heat and mass transfer and combustion. He actively engaged in research and consulting in enhanced convective heat mass transfer stability and phase-change in nuclear thermo-hydraulics loops numerical methods applied to computational fluid dynamics solidification and melting and interfacial flows. Professor Date has published in the International Journal of Heat and Mass Transfer Journal of Enhanced Heat Transfer Journal of Numerical Heat Transfer and American Society of .