Chemical Kinetics in Combustion and Reactive Flows: Modeling Tools and Applications

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V. I. Naoumov (Central Connecticut State University) V. G. Krioukov

Chemical Kinetics in Combustion and Reactive Flows

Modeling Tools and Applications

V. I. Naoumov (Central Connecticut State University), V. G. Krioukov, A. L. Abdullin , A. V. Demin

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English

Cambridge University Press
22 August 2019

Thermochemistry & chemical thermodynamics; Flow, turbulence, rheology

Following elucidation of the basics of thermodynamics and detailed explanation of chemical kinetics of reactive mixtures, readers are introduced to unique and effective mathematical tools for the modeling, simulation and analysis of chemical non-equilibrium phenomena in combustion and flows. The reactor approach is presented considering thermochemical reactors as the focal points. Novel equations of chemical kinetics compiling chemical thermodynamic and transport processes make reactor models universal and easily applicable to the simulation of combustion and flow in a variety of propulsion and energy generation units. Readers will find balanced coverage of both fundamental material on chemical kinetics and thermodynamics, and detailed description of mathematical models and algorithms, along with examples of their application. Researchers, practitioners, lecturers, and graduate students will all find this work valuable.

By: V. I. Naoumov (Central Connecticut State University), V. G. Krioukov, A. L. Abdullin, A. V. Demin
Imprint: Cambridge University Press
Country of Publication: United Kingdom
Dimensions: Height: 253mm, Width: 178mm, Spine: 26mm
Weight: 990g
ISBN: 9781108427043
ISBN 10: 1108427049
Pages: 442
Publication Date: 22 August 2019
Audience: College/higher education , Further / Higher Education
Format: Hardback
Publisher's Status: Active

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.

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. V. G. Krioukov is a Professor of Mechanical and Aerospace Engineering at the Kazan National Research Technical University, Russia. He is a scientist in the field of thermodynamics, chemical kinetics, combustion and flows in propulsion and power generation systems. He has forty years of experience with teaching and performing research for leading Russian aerospace companies. He established the first 'Mathematical Modeling' Graduate Program in Brazil. Dr Krioukov is a Distinguished Scientist of the Russian Republic of Tatarstan and Recipient of the Outstanding Research Award of the USSR State Committee for Public Education and Central Committee of Trade Unions for Education and Science. A. L. Abdullin is a Vice President and Academician of the Academy of Sciences of the Russian Republic of Tatarstan; Professor and Chair of the Department of Automotive Engines at the Kazan National Research Technical University, Russia. His areas of expertise are: chemical kinetics, combustion and reactive fluid systems. Dr Abdullin is Distinguished Scientist of the Russian Republic of Tatarstan; Recipient of the Gold Medal of the Society of Inventors of the Republic of Tatarstan, and Recipient of the Honorary Diploma from the Ministry of Education and Science of Russian Federation. A. V. Demin is a Professor of the Engineering Ecology and Rational Nature Management Department at the Kazan State Power Engineering University, Russia. He is a researcher in the fields of chemical kinetics, numerical simulation of combustion and multiphase chemical non-equilibrium flows in aerospace propulsion systems and internal combustion engines. Dr Demin is the Honorary Worker of Higher Education which was awarded by Russian Ministry of High Education.

Reviews for Chemical Kinetics in Combustion and Reactive Flows: Modeling Tools and Applications

'As a researcher and practitioner in the field of thermal sciences, I am delighted to endorse such an insightful, logical and timely presentation of complex matters in chemical thermodynamics, chemical kinetics and combustion. The book is distinguished by a well balanced presentation of a foundational theoretical material, in-depth analyses of modern combustion modeling tools and authors' unique developments in engineering combustion. Examples of applications of models and tools to a variety of combustion systems are a definite bonus. This makes the book valuable for graduate education and scholars as well as practitioners who are developing efficient and effective combustion systems.' Aleksandr Kozlov, Gas Technology Institute, Illinois 'I believe that this book is needed and it will be definitely welcomed by a broad audience of readers ranging from students to seasoned professionals. The book covers wide area of human knowledge that is important for practical applications. My particular interest was in the parts of the book that describe evaporation of the droplets and particulates of the fuel. It is of high value for me to have a book that provided up to date summary of the current state of the art in combustion, in general, and in evaporation sub-models as applied to combustion, in particular. The book is well organized and the presentation is excellent. The material logically follows from the fundamental concepts and proceeds to the deeper and deeper peculiarities of the theoretical and mathematical modeling and numerical simulation. With great pleasure, I am endorsing the publication of this book.' Vladimir Semak, Signature Science, LLC