Authored by a respected scientist with a growing international reputation this is a self-contained text that can be used by the beginners and the experts alike, to study the basic aspects of finite element modelling. It provides a sound physical understanding of the basis on which mathematical models of polymer processes are built.
* Written from a chemical engineering rather then a mathematical perspective it enables the reader to get up to speed in a relatively short time
* Provides the 'parts and tools' required to assemble finite element models, applicable to situations that arise under realistic conditions
* Discusses and compares specific finite element schemes that provide the most reliable and robust numerical solution procedures for polymer processing models
* Practical examples give a wide ranging view of the application of finite element analysis to industrial problems
* Describes non-Newtonian fluid mechanics equations in a self-contained, concise and clear manner
* Includes clear and simple readily compiled code to model simple problems that can be extended to solve more complex polymer processing problems This book makes the subject accessible to a wide audience ranging from senior under-graduate to post-graduate engineering students, as well as, researchers and practising engineers involved in polymer industry.
About the Author, Vahid Nassehi
Vahid Nassehi is internationally renowned for his work in the field of computer modelling of complex flow processes. He is currently a Reader in Process Modelling in the Chemical Engineering Department of Loughborough University.
This book is directed towards postgraduate students and practicing engineers who wish to develop finite element codes for non-Newtonian flow problems arising in polymer processing operations. Avoiding in- depth discussions about non-Newtonian fluid mechanics and mathematical background of the finite element, the book focuses on the "parts and tools" required for assembling finite element models which have applicability in situations expected to arise under realistic conditions. Examples illustrate the application of finite element methods to industrial problems. Nassehi teaches computational modeling in the Chemical Engineering Department at Loughborough University. Annotation c. Book News, Inc., Portland, OR (booknews.com)
