V. I. Naoumov is a Professor of Mechanical and Aerospace Engineering at the Central Connecticut State University. His areas of the scientific interest are: chemical kinetics, aerothermochemistry, and combustion in aerospace propulsion systems and automotive engines. He has thirty-five years of experience with teaching and performing research for leading aerospace companies. Dr Naoumov is a Distinguished Scientist of the Russian Republic of Tatarstan; Recipient of the Outstanding Research Award of the USSR State Committee for Public Education and Central Committee of Trade Unions for Education and Science; and Recipient of the ASME 2018 Distinguished Engineer of the Year Award.
Inhaltsangabe
Part I. Basic Components of Chemical Non-Equilibrium Models: 1. Approaches to combustion simulation: patterns, models and main equations; 2. Governing equations of chemical kinetics and specific features of their solution; 3. Software tools for the support of calculation of combustion and reacting flows; Part II. Mathematical Modeling of Selected Typical Modes of Combustion: 4. Laminar premixed flames: simulation of combustion in the flame front; 5. Droplets and particles: evaporation in high-temperature flow and combustion in boundary layers; 6. Models of droplet evaporation in reacting flow; Part III. Simulation of Combustion and Non-Equilibrium Flows in Propulsion and Power Generation Systems: 7. Simulation of high-temperature heterogeneous reacting flows; 8. Simulation of two-phase flows in gas generators of liquid propellant rocket engines; 9. Pressurization of liquid-propellant rocket engine tanks; 10. Combustion and ionization in spark ignition engines; References; Index.
Part I. Basic Components of Chemical Non-Equilibrium Models: 1. Approaches to combustion simulation: patterns, models and main equations; 2. Governing equations of chemical kinetics and specific features of their solution; 3. Software tools for the support of calculation of combustion and reacting flows; Part II. Mathematical Modeling of Selected Typical Modes of Combustion: 4. Laminar premixed flames: simulation of combustion in the flame front; 5. Droplets and particles: evaporation in high-temperature flow and combustion in boundary layers; 6. Models of droplet evaporation in reacting flow; Part III. Simulation of Combustion and Non-Equilibrium Flows in Propulsion and Power Generation Systems: 7. Simulation of high-temperature heterogeneous reacting flows; 8. Simulation of two-phase flows in gas generators of liquid propellant rocket engines; 9. Pressurization of liquid-propellant rocket engine tanks; 10. Combustion and ionization in spark ignition engines; References; Index.
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