Title: Transport Phenomena Fundamentals, 2nd Edition Author: Joel Plawsky ISBN: 1420062336 / 9781420062335 Format: Hard Cover Pages: 857 Publisher: CRC Press Year: 2010 Availability: Out of Stock
Description
Contents
Although the practice of chemical engineering has broadened to encompass problems in a range of disciplines, including biology, biochemistry, and nanotechnology, one of the curriculum’s foundations is built upon the subject of transport phenomena. Transport Phenomena Fundamentals, Second Edition provides a unified treatment of heat, mass, and momentum transport based on a balance equation approach.
Designed for a two-term course
Used in a two-term transport phenomena sequence at Rensselaer Polytechnic Institute, this text streamlines the approach to how the subject is taught. The first part of the book takes students through the balance equation in the context of diffusive transport, be it momentum, energy, mass, or charge. Each chapter adds a term to the balance equation, highlighting the effects of that addition on the physical behavior of the system and the underlying mathematical description.
The second half of the book builds upon the balance equation description of diffusive transport by introducing convective transport terms, focusing on partial rather than ordinary differential equations. The Navier–Stokes and convective transport equations are derived from balance equations in both macroscopic and microscopic forms.
Includes examples and problems drawn from Comsol® software
The second edition of this text is now enhanced by the use of finite element methods in the form of examples and extended homework problems. A series of example modules are associated with each chapter of the text. Some of the modules are used to produce examples in the text, and some are discussed in the homework at the end of each chapter. All of the modules are located online at an accompanying website which is designed to be a living component of the course. (available on the download tab)
Preface
Author
Chapter 1 : Introductory Concepts Chapter 2 : Fluxes, Gradients, and Transport Properties Chapter 3 : Transport Properties of Materials Chapter 4 : One-Dimensional, Steady-State Diffusive Transport Chapter 5 : Generation Chapter 6 : Accumulation Chapter 7 : Conservative Transport and Waves Chapter 8 : Transport Enhancement Using Extended Surfaces Chapter 9 : Multidimensional Effects, Potential Functions, and Fields Chapter 10 : Convective Transport : Microscopic Balances Chapter 11 : Macroscopic or Engineering Balances Chapter 12 : Convective Transport on a Flat Plate (Laminar Boundary Layers) Chapter 13 : Convective Transport : Systems with Curvature Chapter 14 : Turbulent Boundary Layers Chapter 15 : Radiative Transport
Nomenclature
Appendix A : Vector Mathematics
Appendix B : Mathematical Functions and Heisler Charts
Appendix C : Exact Solution to the Boundary Layer Equations
Appendix D : Thermal and Transport Properties of Materials
Index