Overview

Critical regimes of two-phase flows with a polydisperse solid phase form the basis of such widespread industrial processes as separation of various powdery materials and minerals dressing. It is impossible to describe such complicated flows analytically. Therefore, this study concentrates on invariants experimentally revealed and theoretically grounded for such flows. This approach can be compared with the situation in gases, where in order to determine principal parameters of their state, one does not need to measure the kinetic energy and velocity of each molecule and find its contribution to the temperature and pressure. These parameters are determined in a simple way for the system on the whole. A novel conception of two-phase flows allowing the formulation of their statistical parameters is physically substantiated. On the basis of the invariants and these parameters, a comprehensive method of estimating and predicting mass transfer in such flows is developed. It is noteworthy that the presented results are mostly phenomenological. Such an approach can be successfully extended to the separation of liquids, gases and isotopes. The book is intended for students and specialists engaged in chemical technology, mineral dressing, ceramics, microelectronics, pharmacology, power generation, thermal engineering and other fields in which flows carrying solid particles are used in the technological process.

Full Product Details

Author:   Eugene Barsky
Publisher:   Springer
Imprint:   Springer
Edition:   2010 ed.
Volume:   93
Dimensions:   Width: 15.50cm , Height: 1.90cm , Length: 23.50cm
Weight:   0.557kg
ISBN:  

9789400732087

ISBN 10:   9400732082
Pages:   348
Publication Date:   28 June 2012
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
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Table of Contents

General Ideas of Mass Transfer Processes in Critical Regimes.- Principles of Modeling Processes in Moving Media.- System of Particles of the Same Size Class in a Critical Flow.- System of Particles of Several Size Classes.- Principal Statistical Relations of Mass Transfer in Critical Flow.- Correlation Between the Apparatus and the Cell.- Structural Model of Mass Transfer in Critical Regimes of Two-Phase Flows.- Correlation Between Statistical and Empirical Results.- Entropy of Composition: Optimization Criterion.- Stability and Kinetic Aspects of Mass Distribution in Critical Regimes.- Critical Regimes of Two-Phase Flows in Complicated Systems.- Stochastic Model of Critical Regimes of Two-Phase Flows.- Mass Transfer in Critical Regimes of Two-Phase Flows.- Universal Curves Criteria.

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