Modeling Transport Phenomena in Porous Media with Applications

Modeling Transport Phenomena in Porous Media with Applications

NOOK Book1st ed. 2018 (eBook - 1st ed. 2018)

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Overview

This book is an ensemble of six major chapters, an introduction, and a closure on modeling transport phenomena in porous media with applications. Two of the six chapters explain the underlying theories, whereas the rest focus on new applications. Porous media transport is essentially a multi-scale process. Accordingly, the related theory described in the second and third chapters covers both continuum‐ and meso‐scale phenomena. Examining the continuum formulation imparts rigor to the empirical porous media models, while the mesoscopic model focuses on the physical processes within the pores. Porous media models are discussed in the context of a few important engineering applications. These include biomedical problems, gas hydrate reservoirs, regenerators, and fuel cells. The discussion reveals the strengths and weaknesses of existing models as well as future research directions.

Product Details

ISBN-13: 9783319698663
Publisher: Springer International Publishing
Publication date: 11/21/2017
Series: Mechanical Engineering Series
Sold by: Barnes & Noble
Format: NOOK Book
Pages: 241
File size: 6 MB

About the Author

Malay K. Das is an Associate Professor in the Department of Mechanical Engineering, Indian Institute of Technology Kanpur, India; Partha P. Mukherjee is an Associate Professor the Department of Mechanical Engineering, Purdue University, USA; and K. Muralidhar is a Professor in the Department of Mechanical Engineering, Indian Institute of Technology Kanpur, India.

Table of Contents

Introduction.- Fundamentals of Flow, Heat, Mass and Charge Transfer through Porous Media.- Mesoscale Interactions of Transport Phenomena in Polymer Electrolyte Fuel Cells.- Porous Media Application: Electrochemical Systems.- Porous Media Applications: Biological Systems.- Oscillatory Flow in a Mesh-type Regenerator.- Geological Systems, Methane Recovery and CO2 sequestration.- Closure.

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