Heat Transfer 10/e (絕)
- 20本以上,享 8.5折
售價
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- 一般書籍
- ISBN:9780071267694
- 作者:Jack P. Holman
- 版次:10
- 年份:2010
- 出版商:McGraw-Hill
- 頁數/規格:725頁/平裝雙色
書籍介紹
本書特色
目錄
作者介紹
Description
As one of the most popular heat transfer texts, Jack Holman's Heat Transfer is noted for its clarity, accessible approach, and inclusion of many examples and problem sets. The new tenth edition retains the straight-forward, to-the-point writing style while covering both analytical and empirical approaches to the subject. Throughout the book, emphasis is placed on physical understanding while, at the same time, relying on meaningful experimental data in those situations that do not permit a simple analytical solution. New examples and templates provide students with updated resources for computer-numerical solutions.
As one of the most popular heat transfer texts, Jack Holman's Heat Transfer is noted for its clarity, accessible approach, and inclusion of many examples and problem sets. The new tenth edition retains the straight-forward, to-the-point writing style while covering both analytical and empirical approaches to the subject. Throughout the book, emphasis is placed on physical understanding while, at the same time, relying on meaningful experimental data in those situations that do not permit a simple analytical solution. New examples and templates provide students with updated resources for computer-numerical solutions.
Features
- There is a new chapter on Summary and Design Information (Ch. 12).
- New and revised homework problems have been added throughout.
- Numerous calculation tables are offered in Chapter 12 as an aid in preliminary design work. The chapter also features 11 new examples illustrating the use of these charts.
- Relying on meaningful experimental data in those situations that do not permit a simple analytical solution.
- The text uses Microsoft Excel for solution of both steady state and transient heat transfer problems. Excel is given a full discussion in Appendix D, which includes treatment of heat source and radiation boundary conditions. A special template automatically writes nodal equations in accordance with geometric model and boundary conditions set up by user.
- An Excel template analyzes the heating and cooling of lumped capacity with both radiation and variable convection boundary conditions. Also included are numerical computer examples, including heat source effect.
- All Excel templates are available on the book website so that information need not be re-keyed. The website also includes special Excel graphical templates and an MS Word symbol keyboard template to facilitate direct keyboarding of symbols and the immediate setup of 3D charts.
- The text has retained and further strengthened its emphasis on resistance capacity formulation in numerical-computer methods.
- The text continues to focus on traditional empirical relations for the calculation of convection heat transfer, while presenting recent alternative methods.
- At the end of each problem set there is a "Design-Oriented Problems" section. These problems are open-ended and typically do not result in a unique answer. Many are extensive in length and require judgment decisions during the solution process. Over 100 such problems are included in the text.
- Answers to selected problems are provided in a section at the back of the book.
Table of Contents
1 Introduction
2 Steady-State Conduction--One Dimension
3 Steady-State Conduction--Multiple Dimensions
4 Unsteady-State Conduction
5 Principles of Convection
6 Empircal and Practical Relations for Forced-Convection Heat Transfer
7 Natural Convection Systems
8 Radiation Heat Transfer
9 Condensation and Boiling Heat Transfer
10 Heat Exchangers
11 Mass Transfer
12 Summary and Design Information
1 Introduction
2 Steady-State Conduction--One Dimension
3 Steady-State Conduction--Multiple Dimensions
4 Unsteady-State Conduction
5 Principles of Convection
6 Empircal and Practical Relations for Forced-Convection Heat Transfer
7 Natural Convection Systems
8 Radiation Heat Transfer
9 Condensation and Boiling Heat Transfer
10 Heat Exchangers
11 Mass Transfer
12 Summary and Design Information
Jack P. Holman, Southern Methodist University
