Bültmann & Gerriets
Heat Transfer in Fluidized Beds
von K. E. Wirth, O. Molerus
Verlag: Springer Netherlands
Reihe: Particle Technology Series Nr. 11
Hardcover
ISBN: 9789401064682
Auflage: Softcover reprint of the original 1st ed. 1997
Erschienen am 10.10.2012
Sprache: Englisch
Format: 235 mm [H] x 155 mm [B] x 12 mm [T]
Gewicht: 324 Gramm
Umfang: 208 Seiten

Preis: 106,99 €
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Klappentext
Inhaltsverzeichnis

A prestigious form of research grant in Germany is the Sonderforschungsbereich, which provides continuous funding over a period of up to 15 years, but only as long as the work is yielding worthwhile results. We acknowledge financial support of our work at Erlangen by the Deutsche Forschungsgemeinschaft (DFG), Sonder­ forschungsbereich 222. Thanks to this support, the experimental results from six Dr. -Ing. dissertations have provided the basis for our book: 8 ¿ Schweinzer, J. (1987) Heat transfer in bubbling fluidized beds at Ar;a. 10 ¿ Seiter, M. (1990) Particle motion and solids concentration in circulating fluidized beds ¿ Mattmann, W. (1991) Heat transfer in pressurized circulating fluidized beds ¿ Burschka, A. (1993) Pulsed light method ¿ Dietz, S. (1994) Heat transfer in bubbling fluidized beds ¿ Gruber, U. (1995) Heat transfer in lean phase systems This book is the result of the enthusiastic and trustful cooperation of its authors. Nevertheless, we are separate individuals. Chapters 1 to 12 and 19 are by O. Molerus; Chapters 13 to 18 are by K. -E. Wirth. This book came into existence after many rewrites, patiently endured by Mrs Winter, who typed all versions of the manuscript, and by Mrs Scheffler-Kohler, who drew all the figures. Bob Farmer and David Penfold helped us bridge the language gap to produce a readable book. Weare grateful to Professor Brian Scarlett of Delft University, who on behalf of Chapman & Hall allowed us to write this book.



Preface. Introduction. Particle migration at solid surfaces and heat transfer in bubbling fluidized beds. Heat transfer in particle beds. Heat transfer mechanisms in bubbling fluidized beds. Prediction of minimum fluidization velocity. Physical properties of the media. Prediction of heat transfer in bubbling fluidized beds at Ar10 8. Physical background to convective heat transfer. Heat transfer at elevated temperatures. Historical remarks. Fluid dynamics of circulating fluidized beds. Experimentally determined wall-to-suspension heat transfer coeffients in circulating fluidized beds. Prediction of the heat transfer in circulating fluidized beds without considering the influence radiation. Prediction of the heat transfer in circulating fluidized beds at elevated temperatures. Heat transfer in homogenous multiphase flows. Prediction of the heat transfer with particulate fluidization. General aspects of heat transfer in fixed and fluidized beds percolated by a gas at Re>1. References. Index


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