Table of contents:
Fundamental Concepts. Steady-State Conduction in One Dimension. Steady-State Conduction in Multiple Dimensions. Unsteady-State Heat Conduction. Introduction to Convection. Convection Heat Transfer in a Closed Conduit. Convection Heat Transfer in Flows Past Immersed Bodies. Natural-Convection Systems. Heat Exchangers. Condensation and Vaporization Heat Transfer. Introduction to Radiation Heat Transfer. Radiation Heat Transfer Between Surfaces. Appendix.
Engineering Heat Transfer provides readers with a foundation in the study of heat transfer principles and emphasizes some of the topic's practical applications. Rather than focus on high level mathematics, the author concentrates on problem solving skills using real-world examples-examples that amplify the theory and show how derived equations are used to model physical problems. Concise and user-friendly, Engineering Heat Transfer is a text uniquely suited to preparing readers to confront the real and complex problems they encounter as professionals.
Fundamental Concepts. Steady-State Conduction in One Dimension. Steady-State Conduction in Multiple Dimensions. Unsteady-State Heat Conduction. Introduction to Convection. Convection Heat Transfer in a Closed Conduit. Convection Heat Transfer in Flows Past Immersed Bodies. Natural-Convection Systems. Heat Exchangers. Condensation and Vaporization Heat Transfer. Introduction to Radiation Heat Transfer. Radiation Heat Transfer Between Surfaces. Appendix.
Engineering Heat Transfer provides readers with a foundation in the study of heat transfer principles and emphasizes some of the topic's practical applications. Rather than focus on high level mathematics, the author concentrates on problem solving skills using real-world examples-examples that amplify the theory and show how derived equations are used to model physical problems. Concise and user-friendly, Engineering Heat Transfer is a text uniquely suited to preparing readers to confront the real and complex problems they encounter as professionals.