Flow, Mixing and Heat Transfer in Furnaces
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Flow, Mixing and Heat Transfer in Furnaces

The Science & Applications of Heat and Mass Transfer Reports, Reviews & Computer Programs
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ISBN-13:
9781483188386
Einband:
PDF
Seiten:
256
Autor:
K. H. Khalil
eBook Typ:
PDF
eBook Format:
PDF
Kopierschutz:
Adobe DRM [Hard-DRM]
Sprache:
Englisch
Beschreibung:

HMT: The Science & Application of Heat and Mass Transfer: Reports, Reviews & Computer Programs, Volume 2: Flow, Mixing and Heat Transfer in Furnaces is a collection of papers from the First Conference on Mechanical Power Engineering. The title presents experimental and theoretical research in the field of flow, mixing, and heat transfer in furnaces. The experimental papers in the selection include the effect of the exit section geometry and furnace length on mixing in a cold model industrial furnace, as well as the effect of some parameters on the characteristics of heat liberated along a cylindrical reversed flow furnace. The theoretical papers tackle topics such as study of mixing of two coaxial swirling jets in a cold model furnace and numerical computations of turbulent swirling flames in axisymmetric combustors. The book will be of great use to students, researchers, and practitioners of mechanical engineering.
HMT: The Science & Application of Heat and Mass Transfer: Reports, Reviews & Computer Programs, Volume 2: Flow, Mixing and Heat Transfer in Furnaces is a collection of papers from the First Conference on Mechanical Power Engineering. The title presents experimental and theoretical research in the field of flow, mixing, and heat transfer in furnaces. The experimental papers in the selection include the effect of the exit section geometry and furnace length on mixing in a cold model industrial furnace, as well as the effect of some parameters on the characteristics of heat liberated along a cylindrical reversed flow furnace. The theoretical papers tackle topics such as study of mixing of two coaxial swirling jets in a cold model furnace and numerical computations of turbulent swirling flames in axisymmetric combustors. The book will be of great use to students, researchers, and practitioners of mechanical engineering.