Your search keyword '"Combustion"' showing total 9 results

1. Combustion Physics : Flames, Detonations, Explosions, Astrophysical Combustion and Inertial Confinement Fusion

Author

Michael A. Liberman and Michael A. Liberman

Subjects

Combustion

Abstract

This book provides the latest achievements and original research work in physics of combustion processes and application of the methods developed in combustion physics for astrophysical problems of stars burning, supernovae explosions and a confined thermonuclear fusion. All the materials in the book are presented in a concise and easily accessible way, but at the same time provides a deep physical inside in the phenomena considered. It is an effective theoretical course with the direct practical implications in engineering fields of engine's development, energy production, safety issues inherent to terrestrial combustion, as well as in thermonuclear combustion in the inertial fusion. This book is aimed at university students, Ph.D. students and engineers, as well as professionals in combustion, energy-related research, astrophysics and researchers in neighboring fields.

Published

2021

2. Oxyfuel Combustion for Clean Energy Applications

Author

Medhat A. Nemitallah, Mohamed A. Habib, Hassan M. Badr, Medhat A. Nemitallah, Mohamed A. Habib, and Hassan M. Badr

Subjects

Clean energy, Combustion, Oxygen--Industrial applications

Abstract

This book aims to be the reference book in the area of oxyfuel combustion, covering the fundamentals, design considerations and current challenges in the field. Its first part provides an overview of the greenhouse gas emission problem and the current carbon capture and sequestration technologies. The second part introduces oxy-fuel combustion technologies with emphasis on system efficiency, combustion and emission characteristics, applications and related challenges. The third part focuses on the recent developments in ion transport membranes and their performance in both oxygen separation units and oxygen transport reactors (OTRs). The fourth part presents novel approaches for clean combustion in gas turbines and boilers. Computational modelling and optimization of combustion in gas turbine combustors and boiler furnaces are presented in the fifth part with some numerical results and detailed analyses.

Published

2019

3. High-Performance Computing of Big Data for Turbulence and Combustion

Author

Sergio Pirozzoli, Tapan K. Sengupta, Sergio Pirozzoli, and Tapan K. Sengupta

Subjects

Combustion, Big data, Turbulence, Jets--Fluid dynamics

Abstract

This book provides state-of-art information on high-accuracy scientific computing and its future prospects, as applicable to the broad areas of fluid mechanics and combustion, and across all speed regimes. Beginning with the concepts of space-time discretization and dispersion relation in numerical computing, the foundations are laid for the efficient solution of the Navier-Stokes equations, with special reference to prominent approaches such as LES, DES and DNS. The basis of high-accuracy computing is rooted in the concept of stability, dispersion and phase errors, which require the comprehensive analysis of discrete computing by rigorously applying error dynamics. In this context, high-order finite-difference and finite-volume methods are presented. Naturally, the coverage also includes fundamental notions of high-performance computing and advanced concepts on parallel computing, including their implementation in prospective hexascale computers. Moreover, the book seeks to raisethe bar beyond the pedagogical use of high-accuracy computing by addressing more complex physical scenarios, including turbulent combustion. Tools like proper orthogonal decomposition (POD), proper generalized decomposition (PGD), singular value decomposition (SVD), recursive POD, and high-order SVD in multi-parameter spaces are presented. Special attention is paid to bivariate and multivariate datasets in connection with various canonical flow and heat transfer cases. The book mainly addresses the needs of researchers and doctoral students in mechanical engineering, aerospace engineering, and all applied disciplines including applied mathematics, offering these readers a unique resource.

Published

2019

4. Key Factors of Combustion : From Kinetics to Gas Dynamics

Author

Nikolai M. Rubtsov and Nikolai M. Rubtsov

Subjects

Combustion

Abstract

This book summarizes the main advances in the mechanisms of combustion processes. It focuses on the analysis of kinetic mechanisms of gas combustion processes and experimental investigation into the interrelation of kinetics and gas dynamics in gas combustion. The book is complimentary to the one previously published, The Modes of Gaseous Combustion.

Published

2016

5. Dynamic Structure of Detonation in Gaseous and Dispersed Media

Author

A.A. Borissov and A.A. Borissov

Subjects

Combustion, Detonation waves, Explosions

Abstract

Of late the demands of industry in creating new composite and functional materials with present properties stimulated an increased interest to the investigation of processes which occur in the detonation technologies of complex chemical composition with an additive of disperse particles. The collection includes a series of papers presented at the 3d International Conference'Lavrentyev Readings on Mathematics, Mechanics, and Physics'(Novosibirsk, 1990),was held by the Hydrodynamics Institute under the support of the Presidium of the Siberian Branch of the USSR Academy of Sciences to stimulate the international cooperation of the leading international centers. In the framework of this Conference the Round Table seminar was held by Prof. A. Borissov and Prof. V. Mi trofanov devoted to'Dynamic Structure of Detonation in Gaseous and Dispersed Media'. The idea to hold such Round Table was supported by Chairman of Organizing Committee academician Prof. V.Titov from Hydrodynamics Institute, and academician Prof. V. Nakoryakov and also his Institute of Thermophysics. The main ideas discussed at the Round Table were presented in the form of papers which reflected present situation of the problem of dynamic structure of the detonation waves in gaseous and dispersed media. The basic experimental facts concerning of complicated mul ti­ dimensional non-stationary structure both of the detonation wave and its front surface, generation of the cell structure, the effect of transverse waves, obstacles, channel geometry etc. on the transition from dynamic regime to stationary structure are represented in the fist three papers.

Published

2012

6. Fundamentals of Combustion Processes

Author

Sara McAllister, Jyh-Yuan Chen, A. Carlos Fernandez-Pello, Sara McAllister, Jyh-Yuan Chen, and A. Carlos Fernandez-Pello

Subjects

Combustion

Abstract

Fundamentals of Combustion Processes is designed as a textbook for an upper-division undergraduate and graduate level combustion course in mechanical engineering. The authors focus on the fundamental theory of combustion and provide a simplified discussion of basic combustion parameters and processes such as thermodynamics, chemical kinetics, ignition, diffusion and pre-mixed flames. The text includes exploration of applications, example exercises, suggested homework problems and videos of laboratory demonstrations

Published

2011

7. Introduction to Physics and Chemistry of Combustion : Explosion, Flame, Detonation

Author

Michael A. Liberman and Michael A. Liberman

Subjects

Combustion

Abstract

Most of the material covered in this book deals with the fundamentals of chemistry and physics of key processes and fundamental mechanisms for various combustion and combustion related phenomena in gaseous combustible mixture. It provides the reader with basic knowledge of burning processes and mechanisms of reaction wave propagation. The combustion of a gas mixture (flame, explosion, detonation) is necessarily accompanied by motion of the gas. The process of combustion is therefore not only a chemical phenomenon but also one of gas dynamics. The material selection focuses on the gas phase and with premixed gas combustion. Premixed gas combustion is of practical importance in engines, modern gas turbine and explosions, where the fuel and air are essentially premixed, and combustion occurs by the propagation of a front separating unburned mixture from fully burned mixture. Since premixed combustion is the most fundamental and potential for practical applications, the emphasis in the present work is be placed on regimes of premixed combustion. This text is intended for graduate students of different specialties, including physics, chemistry, mechanical engineering, computer science, mathematics and astrophysics.

Published

2008

8. Irreversible Phenomena : Ignitions, Combustion and Detonation Waves

Author

Kunio Terao and Kunio Terao

Subjects

Detonation waves, Combustion, Irreversible processes

Abstract

Ideals are simple and able to be easily understood, but never exist in reality. In this book a theory based on the second law of thermodynamics and its applications are described. In thermodynamics there is a concept of an ideal gas which satisfies a mathematical formula PV = RT. This formula can appro- mately be applied to the real gas, so far as the gas has not an especially high pressure and low temperature. In connection with the second law of thermo- namics there is also a concept of reversible and irreversible processes. The reversible process is a phenomenon proceeding at an infinitely low velocity, while the irreversible process is that proceeding with a finite velocity. Such a process with an infinitely slow velocity can really never take place, and all processes observed are always irreversible, therefore, the reversible process is an ideal process, while the irreversible process is a real process. According to the first law of thermodynamics the energy increase dU of the thermodynamic system is a sum of the heat dQ added to the system and work dW done in the system. Practically, however, the mathematical formula of the law is often expressed by the equation, or some similar equations derived from this formula, is applied to many phenomena. Such formulae are, however, th- retically only applicable to phenomena proceeding at an infinitely low velocity, that is, reversible processes or ideal processes.

Published

2007

9. Dynamics of Combustion Systems

Author

A. K. Oppenheim and A. K. Oppenheim

Subjects

Combustion

Abstract

Combustion systems are confined fields of compressible fluids where exothermic processes of combustion take place, subject to boundary conditions imposed at its borders. The subject of Dynamics of Combustion Systems is presented in three parts: Part 1. Exothermicity – considering the thermodynamic effects due to evolution of exothermic energy in a combustion system Chapter 1. Thermodynamic Aspects Chapter 2. Evolutionary AspectsChapter 3. Heat Transfer AspectsChapter 4. Chemical Kinetic Aspects Part 2. Fluid Dynamics Field– exposing the dynamic properties of flow fields where the exothermic energy is deposited Chapter 5. Aerodynamic AspectsChapter 6. Random Vortex MethodChapter 7. Gasdynamic AspectsChapter 8. Fronts and Interfaces Part 3. Explosions – revealing the dynamic features of fields and fronts due to rapid deposition of exothermic energy Chapter 9. Blast Wave TheoryChapter 10. Self-Similar SolutionChapter 11. Phase Space MethodChapter 12. Detonation

Published

2006