Thermal Radiation Heat Transfer

Thermal Radiation Heat Transfer
Author: John R. Howell
Publisher: CRC Press
Total Pages: 1041
Release: 2020-12-09
Genre: Science
ISBN: 1000257819

The seventh edition of this classic text outlines the fundamental physical principles of thermal radiation, as well as analytical and numerical techniques for quantifying radiative transfer between surfaces and within participating media. The textbook includes newly expanded sections on surface properties, electromagnetic theory, scattering and absorption of particles, and near-field radiative transfer, and emphasizes the broader connections to thermodynamic principles. Sections on inverse analysis and Monte Carlo methods have been enhanced and updated to reflect current research developments, along with new material on manufacturing, renewable energy, climate change, building energy efficiency, and biomedical applications. Features: Offers full treatment of radiative transfer and radiation exchange in enclosures. Covers properties of surfaces and gaseous media, and radiative transfer equation development and solutions. Includes expanded coverage of inverse methods, electromagnetic theory, Monte Carlo methods, and scattering and absorption by particles. Features expanded coverage of near-field radiative transfer theory and applications. Discusses electromagnetic wave theory and how it is applied to thermal radiation transfer. This textbook is ideal for Professors and students involved in first-year or advanced graduate courses/modules in Radiative Heat Transfer in engineering programs. In addition, professional engineers, scientists and researchers working in heat transfer, energy engineering, aerospace and nuclear technology will find this an invaluable professional resource. Over 350 surface configuration factors are available online, many with online calculation capability. Online appendices provide information on related areas such as combustion, radiation in porous media, numerical methods, and biographies of important figures in the history of the field. A Solutions Manual is available for instructors adopting the text.

Proceedings

Proceedings
Author:
Publisher:
Total Pages: 540
Release: 1991
Genre: Heat engineering
ISBN:

ASME Proceedings of the 7th AIAA/ASME Joint Thermophysics and Heat Transfer Conference: Max Jakob award lecture. Theoretical developments in radiative heat transfer. Radiative transfer and interactions with convection in irregular geometries. Fundamentals of combustion. Structure and extinction of fires. Practical combustors

ASME Proceedings of the 7th AIAA/ASME Joint Thermophysics and Heat Transfer Conference: Max Jakob award lecture. Theoretical developments in radiative heat transfer. Radiative transfer and interactions with convection in irregular geometries. Fundamentals of combustion. Structure and extinction of fires. Practical combustors
Author: Bassem F. Armaly
Publisher:
Total Pages: 326
Release: 1998
Genre: Science
ISBN:

Proceedings of the conference held June, 1998. Topics include various types of heat transfer: radiative, natural convection, turbulent, forced convection, phase change, boiling, microscale; heat transfer in separated flows, porous media, energy systems, and turbomachinery; and such other topics as f

Industrial Combustion Testing

Industrial Combustion Testing
Author: Jr., Charles E. Baukal
Publisher: CRC Press
Total Pages: 777
Release: 2010-07-29
Genre: Science
ISBN: 1420085298

Until now, anyone conducting industrial combustion tests had to either rely on old methods, go scurrying through the literature to find proven applicable methodologies, or hire top-shelf consultants such as those that work for cutting-edge companies like John Zink. Manufacturers can no longer take industrial combustion for granted. Air and noise po

Convective Heat and Mass Transfer in Porous Media

Convective Heat and Mass Transfer in Porous Media
Author: Sadik KakaƧ
Publisher: Springer Science & Business Media
Total Pages: 1083
Release: 2012-12-06
Genre: Science
ISBN: 9401132208

The rapid growth of literature on convective heat and mass transfer through porous media has brought both engineering and fundamental knowledge to a new state of completeness and depth. Additionally, several new questions of fundamental merit have arisen in several areas which bear direct relation to further advancement of basic knowledge and applications in this field. For example, the growth of fundamental heat transfer data and correlations for engineering use for saturated media has now reached the point where the relations for heat transfer coefficients and flow parameters are known well enough for design purposes. Multiple flow field regimes in natural convection have been identified in several important enclosure geometries. New questions have arisen on the nature of equations being used in theoretical studies, i. e. , the Validity of Darcy assumption is being brought into question; Wall effects in high and low velocity flow fields have been found to play a role in predicting transport coefficients; The formulation of transport problems in fractured media are being investigated as both an extension of those in a homogeneous medium and for application in engineering systems in geologic media and problems on saturated media are being addressed to determine their proper formulation and solution. The long standing problem of how to adequately formulate and solve problems of multi-phase heat and mass transfer in heterogeneous media is important in the technologies of chemical reactor engineering and enhanced oil recovery.