Scope of the Series

Heat and mass transfer are ubiquitous transport phenomena in manifold fields from the natural environment and living organisms to engineering processes. This book series will cover the latest advances in applying fundamental heat and mass transfer theory and newly developed technologies and materials for solving practical industrial engineering, biomedical and health care problems, while tackling challenges arising from limitations of existing theory and methods that may be associated with simplified assumptions, inaccuracy of fabrication process and/or measurement instruments.

This book series aims to promote developments in basic research on heat and mass transfer phenomena and serve as a platform for the exchanging of new ideas to boost further development.

Topics may include:


Contents

**Preface VII**

**Electrodes 3** Dae-Won Cho

Wu-Yang Sean

**Variations 65**

Haan

**Section 1 Advances in Modelling of Heat and Mass Transfer 1**

Chapter 2 **Direct Numerical Simulation of Hydrate Dissociation in**

Chapter 3 **Darcy-Forchheimer Flow of Casson Nanofluid with Heat Source/Sink: A Three-Dimensional Study 43**

Chapter 4 **Modelling of Bubbly Flow in Bubble Column Reactors with an Improved Breakup Kernel Accounting for Bubble Shape**

Chapter 5 **Discussions of Effects of Surface Tension on Water Vapor Absorbed by Triethylene Glycol Solution Films 91** Honda Wu (Hung-Ta Wu) and Tsair-Wang Chung

Chapter 6 **Mass Transfer in Extractive Distillation when Using Ionic**

Weibin Shi, Jie Yang, Guang Li, Yuan Zong and Xiaogang Yang

Esteban Quijada-Maldonado, Wytze G. Meidersma and André B. de

**Example of CO2 Hydrate 27**

Gosikere Kenchappa Ramesh

**Section 2 Mass Transfer in Multiphase Flow 63**

**Liquids as Solvents 107**

Chapter 1 **Modeling and Analysis of Molten Pool Behavior for Submerged Arc Welding Process with Single and Multi-Wire**

**Homogeneous Porous Media by Applying CFD Method: One**
