This book presents a comprehensive review of state-of-the-art models for turbulent combustion, with special emphasis on the theory, development and applications of combustion models in practical combustion systems. It simplifies the complex multi-scale and nonlinear interaction between chemistry and turbulence to allow a broader audience to understand the modeling and numerical simulations of turbulent combustion, which remains at the forefront of research due to its industrial relevance. Further, the book provides a holistic view by covering a diverse range of basic and advanced topics-from…mehr
This book presents a comprehensive review of state-of-the-art models for turbulent combustion, with special emphasis on the theory, development and applications of combustion models in practical combustion systems. It simplifies the complex multi-scale and nonlinear interaction between chemistry and turbulence to allow a broader audience to understand the modeling and numerical simulations of turbulent combustion, which remains at the forefront of research due to its industrial relevance. Further, the book provides a holistic view by covering a diverse range of basic and advanced topics-from the fundamentals of turbulence-chemistry interactions, role of high-performance computing in combustion simulations, and optimization and reduction techniques for chemical kinetics, to state-of-the-art modeling strategies for turbulent premixed and nonpremixed combustion and their applications in engineering contexts.
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Autorenporträt
Dr. Santanu De has been an Assistant Professor at the Department of Mechanical Engineering, IIT Kanpur since December 2014. He received a Bachelor of Engineering degree from the North Bengal University, Darjeeling, West Bengal in 2002, and an M.Tech. from the IIT Kanpur in 2004, both in Mechanical Engineering. He received his Ph.D. in Aerospace Engineering from the Indian Institute of Science, Bangalore in 2012. Prior to joining the IIT Kanpur, he served two years at Michigan Technological University, Michigan, USA as a postdoctoral research associate, and one year at the Institute of Combustion Technology (ITV), University of Stuttgart, Germany. He also worked as a scientist at the Liquid Propulsion Systems Center, Indian Space Research Organization, Thiruvananthapuram, from 2004 to 2005. His primary areas of research are numerical modeling of turbulent combustion, spray atomization and combustion, coal gasification and combustion. Prof. Avinash K. Agarwal joined the IIT Kanpur in 2001. His areas of interest are IC engines, combustion, alternative fuels, conventional fuels, optical diagnostics, laser ignition, HCCI, emission and particulate control, and large-bore engines. He has published 230+ international journal and conference papers. Prof. Agarwal is a Fellow of the SAE (2012), ASME (2013), ISEES (2015) and INAE (2015). He has received several awards such as the prestigious Shanti Swarup Bhatnagar Award in Engineering Sciences-2016; Rajib Goyal prize-2015; NASI-Reliance Industries Platinum Jubilee Award-2012; and INAE Silver Jubilee Young Engineer Award-2012. Dr. Swetaprovo Chaudhuri has been an Assistant Professor at the Department of Aerospace Engineering, Indian Institute of Science, Bangalore, India since June 2013. Prior to this appointment he was a member of research staff at Princeton University, New Jersey, USA. He received his Ph.D. from the University of Connecticut, USA in 2010 and his B.E. from Jadavpur University, Kolkata (Calcutta), India in 2006. His research interests include fundamental and applied aspects of turbulent combustion, propulsion and functional droplets. He has authored/co-authored more than 70 articles disseminated through international journals and conference proceedings. Recently, he was selected as the recipient of the Young Scientist Medal by the Indian National Science Academy, New Delhi, India and as an Associate of the Indian Academy of Sciences, Bangalore, India. His earlier contributions have been recognized by the American Society of Mechanical Engineers, New York, USA and by the University of Connecticut. Dr. Swarnendu Sen is a Professor at the Department of Mechanical Engineering, Jadavpur University, Kolkata, India, where he has been teaching since November 1989. He earned his Bachelor and Master's in Mechanical Engineering as well as a Ph.D. (Engineering) from Jadavpur University. He worked at the University of Illinois at Chicago, Illinois, USA and Virginia Tech, Virginia, USA as a Visiting Research Scholar. He has also worked at the Technical University of Munich, Germany as a DAAD Fellow. His research interests include fundamental and applied aspects of reacting and multiphase flows, heat transfer augmentation and carbon nano-structure synthesis. He has authored/co-authored more than 200 articles disseminated through top journals and conference proceedings.
Inhaltsangabe
1. Tentative Title of the Chapters.- 2. Fundamentals and modelling of Turbulence - Chemistry Interactions.- 3. Development of reaction mechanisms for combustion simulations.- 4. Optimization and reduction of chemical kinetics.- 5. Turbulent Combustion simulations with HPC.- 6. Direct Numerical Simulations of Turbulent Combustion.- 7. RANS of premixed turbulent flames.- 8. Large eddy simulations of turbulent premixed combustion.- 9. Modelling of Turbulent Premixed Flames using Flamelet-Generated Manifolds.- 10. Modelling of Turbulent Premixed Flames using Conditional Moment Closure.- 11. Direct Numerical Simulations of premixed turbulent combustion: Relevance and applications to engineering computational analyses.- 12. Conditional Moment Closure Methods for Turbulent Non-Premixed Combustion.- 13. Direct Numerical Simulations of autoignition in turbulent non-premixed flames.- 14. Soot modelling in hydrocarbon flames: assessment of semi-empirical models and method of moments.- 15. Transported PDF method for MILD combustion.- 16. Large eddy simulation of nonpremixed flames using filtered mass density function approach.- 17.Multiple Mapping Conditioning Approach.- 18. Characterization of turbulent combustion systems using dynamical systems theory.- 19. Modeling of soot formation in a kerosene spray flame.- 20. Modeling and Simulations of Turbulent Stratified Flames.- 21. Recent Progress in Turbulent Combustion Modeling of Spray Flames using Flamelet Models.- 22. Numerical simulation of turbulent combustion in internal combustion engines.- 23. On the Theory and Modelling of Flame Acceleration and Deflagration-to-Detonation Transition.- 24. Combustion in supersonic flows and scramjet combustion simulation.
1. Tentative Title of the Chapters.- 2. Fundamentals and modelling of Turbulence - Chemistry Interactions.- 3. Development of reaction mechanisms for combustion simulations.- 4. Optimization and reduction of chemical kinetics.- 5. Turbulent Combustion simulations with HPC.- 6. Direct Numerical Simulations of Turbulent Combustion.- 7. RANS of premixed turbulent flames.- 8. Large eddy simulations of turbulent premixed combustion.- 9. Modelling of Turbulent Premixed Flames using Flamelet-Generated Manifolds.- 10. Modelling of Turbulent Premixed Flames using Conditional Moment Closure.- 11. Direct Numerical Simulations of premixed turbulent combustion: Relevance and applications to engineering computational analyses.- 12. Conditional Moment Closure Methods for Turbulent Non-Premixed Combustion.- 13. Direct Numerical Simulations of autoignition in turbulent non-premixed flames.- 14. Soot modelling in hydrocarbon flames: assessment of semi-empirical models and method of moments.- 15. Transported PDF method for MILD combustion.- 16. Large eddy simulation of nonpremixed flames using filtered mass density function approach.- 17.Multiple Mapping Conditioning Approach.- 18. Characterization of turbulent combustion systems using dynamical systems theory.- 19. Modeling of soot formation in a kerosene spray flame.- 20. Modeling and Simulations of Turbulent Stratified Flames.- 21. Recent Progress in Turbulent Combustion Modeling of Spray Flames using Flamelet Models.- 22. Numerical simulation of turbulent combustion in internal combustion engines.- 23. On the Theory and Modelling of Flame Acceleration and Deflagration-to-Detonation Transition.- 24. Combustion in supersonic flows and scramjet combustion simulation.
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