Radiative Heat Transfer, Second Edition [Hardcover]

Michael F. Modest (Author)

Book Description

ISBN-10: 0125031637 | ISBN-13: 978-0125031639 | Publication Date: March 21, 2003 | Edition: 2

Every chapter of Radiative Heat Transfer offers uncluttered nomenclature, numerous worked examples, and a large number of problems - many based on "real world" situations, making it ideal for classroom use as well as for self-study. The book's 22 chapters cover the four major areas in the field: surface properties; surface transport; properties of participating media; and transfer through participating media. Within each chapter, all analytical methods are developed in substantial detail, and a number of examples show how the developed relations may be applied to practical problems.

· Extensive solution manual for adopting instructors
· Most complete text in the field of radiative heat transfer
· Many worked examples and end-of-chapter problems
· Large number of computer codes (in Fortran and C++), ranging from basic problem solving aids to sophisticated research tools
· Covers experimental methods

Editorial Reviews

Review

Jennifer X. Wen, Kingston University, UK:

"This book can simply be summed up as the 'bible' for thermal radiation and its calculation methods."

"I expect to see it on the bookshelf of every university and major research laboratory."

"Because of the level of details the book has gone into in each specific topic, this book will be especially suitable for occasions where students are expected to read extensively outside the classroom as part of the syllabus."

Andrei Fedorov, Georgia Tech:

"The book is up-to-date and provides excellent coverage."

"Excellent writing style with nice historical highlights. The most important asset of the book is its clear and consistent notation used throughout the manuscript. It is probably the most comprehensive treatment of the topic that is currently in existence. It has up-to-date bibliography and very sound treatment of electromagnetism foundation of thermal radiation."


Peter Wong, Tufts University:

"Modest has compiled together a comprehensive and detailed understanding in thermal radiative heat transfer for graduate students and practicing engineers."


Yildiz Bayazitoglu, Rice University:

"Very much up to date and has a good selection of topics."
"Comprehensive, detailed, but simplified."

"The author presented the radiative heat transfer and its interactions with other modes of heat transfer in a coherent and integrated manner emphasizing the fundamentals...The book is directed towards the graduate level students as well as towards the scientists and engineers already engaged in subject matter."

Book Description

The basic physics of radiative heat - how surfaces emit, reflect, and absorb waves, and how that heat is distributed.

See all Editorial Reviews

Product Details

• Hardcover: 860 pages
• Publisher: Academic Press; 2 edition (March 21, 2003)
• Language: English
• ISBN-10: 0125031637
• ISBN-13: 978-0125031639
• Product Dimensions: 10.1 x 7.1 x 1.6 inches
• Shipping Weight: 3.6 pounds (View shipping rates and policies)
• Average Customer Review: 4.3 out of 5 stars  See all reviews (3 customer reviews)
• Amazon Best Sellers Rank: #160,952 in Books (See Top 100 in Books)
  • #66 in Books > Professional & Technical > Professional Science > Physics > Dynamics > Thermodynamics

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Customer Reviews

Most Helpful Customer Reviews

5 of 7 people found the following review helpful:

3.0 out of 5 stars Thorough Treatment in a Narrow Range, January 13, 2011

By 

Vincent H. Yazzie "monument valley" (Flagstaff, Arizona) - See all my reviews
(REAL NAME)   

Amazon Verified Purchase

This review is from: Radiative Heat Transfer, Second Edition (Hardcover)

The book discusses radiation exchange topics, in some detail.
It does not discuss the solution of practical radiation heat transfer problems.

Examples in the book emphasize reflection, absorption, emission, and scattering,
in the various forms that they might occur (as in gases, liquids, and from surfaces).
The discussion includes F-factors, and various methods for deriving them.
The majority of examples involve parallel planes, or the use of "enclosures,"
typically with a "participating medium" in between the surfaces.

The book shows techniques for deriving expressions for gray behavior and for
various forms of non-gray behavior, including general spectral behavior.
The techniques are spread throughout the book, in different chapters.
The reader must pay very close attention to the "enclosure" context applicable
in each specific chapter.

Temperature change in a system, due to the effect of energy transfer, and
the thee-dimensional temperature field resulting from such energy transfer,
is not the main topic in this book. The classic conservation of energy equation
involving system change via thermal radiation, convection, and conduction
is mentioned a few times [26,282,680]. For practical applications, the author
refers the reader to "applications ... reported in the literature" [680].
A few examples show how to derive expressions involving heat flux or
heat flow rate explicitly [such as 164,166,171,177,213,218-219,282].

Many example cases are distinctive for the detail in mathematical exposition,
accompanied by numerous supporting references.
However, the utility sometimes seems to be disconnected from the real world.
For instance, a large number of examples involve parallel planes, or "black" surfaces.
For instance, the non-dimensionalized graphs of convective heat transfer coefficient,
and flow over the flat plate [698,699], while properly constructed mathematically,
are not representative of professional heat transfer practice in general.
For instance, the classic Hollands V-corrugated surface is discussed [107] for reflective
surfaces, followed by a broad-based discussion for "apparent" absorptance and emittance [215]
on the V-corrugated surface [213]. In the example [214], the author discusses apparent emissivity
due to the geometry, which is indeed correct, but surprisingly, he does not discuss the
seminal tradeoff between the "flat black" surface and the "selective surface," as it
occurs in the V-corrugated case, in particular.

The author does not seem to understand why heat transfer engineers must, in practice,
employ certain analytical methods in a real job environment [276 and 277].

The terms "of course" and "obviously" occur too many times in the book.

8 of 12 people found the following review helpful:

5.0 out of 5 stars Especially commended to students of engineering, May 22, 2003

By 

Midwest Book Review (Oregon, WI USA) - See all my reviews

This review is from: Radiative Heat Transfer, Second Edition (Hardcover)

Now in an updated and expanded second edition, Radiative Heat Transfer by Michael F. Modest is a college-level mechanical and chemical engineering textbook, specifically written and intended for advanced students already familiar with basic calculus. Individual chapters address radiative exchange between a variety of surfaces; equations, functions, and methodologies; the influence of conduction and convention, and much, much more. An advanced resource and an excellent text or supplement to engineering education, Radiative Heat Transfer is especially commended to students of Mechanical Engineering and Chemical Engineering.

1 of 8 people found the following review helpful:

5.0 out of 5 stars Great Book!, September 15, 2008

By 

Abby Drake - See all my reviews

This review is from: Radiative Heat Transfer, Second Edition (Hardcover)

Product was exactly as stated. Edition and quality were excellent. Prompt shipping as well. Thanks again.