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Titlebook: Combustion; Physical and Chemica Jürgen Warnatz,Ulrich Maas,Robert W. Dibble Textbook 19961st edition Springer-Verlag Berlin Heidelberg 199

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书目名称Combustion
副标题Physical and Chemica
编辑Jürgen Warnatz,Ulrich Maas,Robert W. Dibble
视频videohttp://file.papertrans.cn/231/230099/230099.mp4
图书封面Titlebook: Combustion; Physical and Chemica Jürgen Warnatz,Ulrich Maas,Robert W. Dibble Textbook 19961st edition Springer-Verlag Berlin Heidelberg 199
描述Combustion is an old technology, which at present provides about 90% of our worldwide energy support. Combustion research in the past used fluid mechanics with global heat release by chemical reactions described with thermodynamics, assuming infinitely fast reactions. This approach was useful for stationary combustion processes, but it is not sufficient for transient processes like ignition and quenching or for pollutant formation. Yet pollutant formation during combustion of fossil fuels is a central topic and will continue to be so in future. This book provides a detailed and rigorous treatment of the coupling of chemical reactions and fluid flow. Also, combustion-specific topics of chemistry and fluid mechanics are considered, and tools described for the simulation of combustion processes.
出版日期Textbook 19961st edition
关键词Navier-Stokes equation; chemistry; classification; fluid mechanics; thermodynamics; transport; air polluti
版次1
doihttps://doi.org/10.1007/978-3-642-97668-1
isbn_ebook978-3-642-97668-1
copyrightSpringer-Verlag Berlin Heidelberg 1996
The information of publication is updating

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Transport Phenomena,ules in the gas. Diffusion is the mass transport caused by concentration gradients, viscosity is the transport of momentum caused by velocity gradients, and heat conduction is the transport of energy caused by temperature gradients. Additionally, there are other phenomena like mass transport caused
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Chemical Kinetics,chemical reactions are fast compared to the other processes like diffusion, heat conduction, and flow, thermodynamics alone allow the description of the system locally (see, e. g., Section 13.1). In most cases, however, chemical reactions occur on time scales comparable with that of the flow and of
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Laminar Premixed Flames,troduced in Chapter 2. A challenge to the combustion scientist is to construct a model that will match the observed concentration- and temperature profiles and allows prediction of events for which there are no measurements. Chapter 3 introduced a simple model, consisting of a system of partial diff
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Ignition Processes,e-independent. The time-dependent process of starting with reactants and evolving in time towards a steadily burning flame is called .. Ignition processes are always time-dependent. Examples of ignition processes include induced ignition (such as occurs in gasoline engines induced by a spark), autoi
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Turbulent Reacting Flows,ombustion equipment, e. g., engines, boilers, and furnaces, the fluid flow is usually turbulent. In turbulent flows, mixing is greatly enhanced. As a consequence, the combustion chamber is, for example, much smaller than possible with laminar flows. In spite of the widespread use of turbulent combus
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