Coupled heat and mass transfer in binary mixtures at supercritical pressures / Zhan-Chao Hu.
2022
QC145.4.T5
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Details
Title
Coupled heat and mass transfer in binary mixtures at supercritical pressures / Zhan-Chao Hu.
Author
Hu, Zhan-Chao.
ISBN
9789811678066 (electronic bk.)
9811678065 (electronic bk.)
9811678057
9789811678059
9811678065 (electronic bk.)
9811678057
9789811678059
Publication Details
Singapore : Springer, 2022.
Language
English
Description
1 online resource
Item Number
10.1007/978-981-16-7806-6 doi
Call Number
QC145.4.T5
Dewey Decimal Classification
530.4/2
Summary
Supercritical pressure fluids have been exploited in many engineering fields, where binary mixtures are frequently encountered. This book focuses on the coupled heat and mass transfer in them, where the coupling comes from cross-diffusion effects (i.e., Soret and Dufour effects) and temperature-dependent boundary reactions. Under this configuration, three main topics are discussed: relaxation and diffusion problems, hydrodynamic stability, and convective heat and mass transfer. This book reports a series of new phenomena, novel mechanisms, and an innovative engineering design in hydrodynamics and transport phenomena of binary mixtures at supercritical pressures. This book covers not only current research progress but also basic knowledge and background. It is very friendly to readers new to this field, especially graduate students without a deep theoretical background.
Note
"Doctoral thesis accepted by Peking University, Beijing, P.R. China."
Bibliography, etc. Note
Includes bibliographical references.
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Access limited to authorized users.
Digital File Characteristics
text file PDF
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed February 1, 2022).
Series
Springer theses.
Available in Other Form
Print version: 9789811678059
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Online Access
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Table of Contents
Introduction
Mass Piston Effect: Theory on the Acoustic Timescale
Mass Piston Effect: Dynamic Relaxation on the Diffusion Timescale
Binary Rayleigh-Benard Instability: Model and Linear Theory
Binary Rayleigh-Benard Instability: Nonlinear Theory
A Novel Application: Coupled Extraction and Crystal Growth
Conclusions.
Mass Piston Effect: Theory on the Acoustic Timescale
Mass Piston Effect: Dynamic Relaxation on the Diffusion Timescale
Binary Rayleigh-Benard Instability: Model and Linear Theory
Binary Rayleigh-Benard Instability: Nonlinear Theory
A Novel Application: Coupled Extraction and Crystal Growth
Conclusions.