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Basic Transport Phenomena in Biomedical Engineering, 2nd Edition |  | Author: Ronald Fournier
Publisher: CRC Press
Category: Book
List Price: $131.95
Buy Used: $77.95
as of 7/29/2010 23:19 CDT details
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Seller: big_easy_books
Rating:  5 reviews
Media: Hardcover
Edition: 2
Pages: 472
Number Of Items: 1
Shipping Weight (lbs): 1.5
Dimensions (in): 8.9 x 6.2 x 1.2
ISBN: 1591690269
Dewey Decimal Number: 571.64
EAN: 9781591690269
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Product Description
Basic Transport Phenomena in Biomedical Engineering, Second Edition fuses fundamental engineering and life science principles to uncover key concepts in biomedical engineering transport phenomena. Coverage begins with basic thermodynamic properties, body fluids, solute diffusion and transport, physical and flow properties of fluids and blood, tissue oxygen transport, and pharmacokinetics. These topics are updated to include new material on fluid mechanics, diffusion, and mass transfer in boundary layers. Building upon this foundation, the book describes the application of these principles to the development and design of drug delivery systems, artificial organs, bioartificial organs, and tissue engineering. Also new to this edition are an introductory chapter on units and dimensions, including tips for solving engineering problems and a discussion of material balances, and a chapter reviewing thermodynamic concepts with emphasis on solutions. Considerable importance is placed on developing a quantitative understanding of the underlying physical, chemical, and biological phenomena. Mathematical models are developed from scratch using the conceptually simple "shell balance" or "compartmental" approaches to obtain the differential equations that describe a particular situation. Numerous examples throughout the book employ mathematical techniques and numerical methods. Where possible, the results obtained from them are compared with actual experimental data taken from the research literature. Each chapter ends with problems designed to help students gain confidence in the development of mathematical models for a variety of problems of varying degrees of complexity. A brief discussion of these mathematical techniques and numerical methods are described in the book. These techniques and methods include similarity transforms, Laplace transforms, finding the root of a nonlinear equation, linear regression, nonlinear regression, and solving ordinary differential equations. This updated edition is ideal for junior and senior undergraduates and first-year graduate students taking courses in biotransport phenomena. Students and professionals in bioengineering and biomedical engineering, as well as other disciplines, such as chemical and mechanical engineering, physiology, biophysics and cell biology will find this text a valuable resource. A solutions manual will be available to qualified instructors.
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| Customer Reviews:
 Great Introduction to Biological Transport Concepts March 6, 2003
3 out of 3 found this review helpful
I used this book for an introductory course in Physiological Transport Phenomena. The book is great in that the author covers most of the transport processes as they apply to biological systems and provide numerous references and useful physical property data. Its nice to see how traditional transport concepts can be applied to problems for a system which everyone of us is very familiar with, namely the human body. The only criticism is that the book does not cover heat transfer and its applications to physiological systems. Luckily my professor provided handouts and supplimental material to the lecture. One of the books he used was the fairly old text by Cooney, "Biomedical Engineering Principles: An introduction to Fluid, Heat and Mass Transport Processes". I think this book is out of print but seems to have great information contained in it as well.This book is a definite must have for any biomedical engineering student and possibly even experienced people working in the field.
Must for Chemical Engineers May 16, 2002
2 out of 2 found this review helpful
Biomedical Engineering requires chemical engineering principles in several areas. This book highlights on those in particular and is a must for chemical engineers who want to know what their challanges are going to be in such biomedical engineering research areas. This also is a primer for the subject, although from a chemical engineering point of view. Ideal for a Bioengineering/Biomedical Engineering course in any chemical/ environmetal engineering department.
Great February 10, 2010
Brandon J. Griffin (Laramie, Wyoming)
The book came as they said it would, and in a very timely manner. No Complaints, just respect.
As far as textbooks go, this was a decent one. July 12, 2010
Chelsea Robbins (CHARLOTTESVILLE, VA, US)
It was very readable, a major plus since my professor spoke little English. Overall, it was worth the cost of the book.
 Its just a bunch of equations September 22, 2003
7 out of 10 found this review helpful
Ok, I understand that this is an engineering book and it is going to have plenty of equations and whatnot, but it really does a poor job of placing the equations in a tangible context.I really respect how ambitious this book is in covering models for a variety of transport phenomena, but despite my more than solid foundation in biology, physics, chemistry, and math, I have to read each chapter 3 or 4 times to be able to finally fit the new material in with the big picture. This is really frustrating. The only reason why I gave this book 3 stars and not 2 is because I realize that this type of material is difficult to "write down." It just seems like there must be something out there that does a better job of it.
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