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传热学(英文版)

  • 定价: ¥25
  • ISBN:9787563234844
  • 开 本:16开 平装
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  • 折扣:
  • 出版社:大连海事大学
  • 页数:178页
  • 作者:编者:李海军//臧...
  • 立即节省:
  • 2017-06-01 第1版
  • 2017-06-01 第1次印刷
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导语

  

内容提要

  

    李海军、臧成杰主编的《传热学》介绍:This book presents an elementary treatment to the principles of heat transfer. The con-text of the subject follows classical lines of separate discussions for heat conduction, con-vection heat transfer, and radiation heat transfer. They are treated mainly from the analyti-cal viewpoint, so that the reader is afforded the insight that is gained from analytical solu-tions. Meanwhile experimental method of heat transfer processes is offered for convection process and the radiation-network method is used in the analysis of radiation systems.Chapters 2, 3 and 4 are about conduction, Chapters 5 and 6 are about convection andChapter 7 is about radiation. Review questions are included at the end of each chapter toextend the subject matter by requiring readers to apply the basic principles to new situa-tions.

目录

Chapter 1  Introduction
  1.1  Physical Origins and Rate Equations
    1.1.1  Conduction Heat Transfer
    1.1.2  Convection Heat Transfer
  1.l.3  Radiation Heat Transfer
  1.2  Conservation of Energy Requirement
    1.2.1  Conservation of Energy for a Control Volume
    1.2.2  Surface Energy Balance
    1.2.3  Application of the Conservation Laws : Methodology
  1.3  Analysis of Heat Transfer Problems : Methodology
  1.4  Relevance of Heat Transfer
  1.5  Units and Dimensions
  Review Questions
  Words and Expressions
Chapter 2  Introduction to Conduction
  2.1  Conduction Rate Equation
  2.2  Thermal Properties of Matter
    2.2.1  Thermal Conductivity
    2.2.2  Other Relevant Properties
  2.3  Heat Diffusion Equation
  2.4  Boundary and Initial Conditions
  Review Questions
  Words and Expressions
Chapter 3  One-Dimensional, Steady-State Conduction
  3.1  Plane Wall
    3.1.1  Temperature Distribution
    3.1.2  Thermal Resistance
    3.1.3  Composite Wall
    3.1.4  Contact Resistance
  3.2  Radial Systems
    3.2.1  Cylinder Wall
    3.2.2  Sphere Wall
    3.2.3  Summary of One-Dimensional Conduction Results
  3.3  Heat Transfer from Extended Surfaces
    3.3.1  A General Conduction Analysis
    3.3.2  Fins of Uniform Cross-Sectional Area
    3.3.3  Fin Performance
    3.3.4  Overall Surface Efficiency
  Review Questions
  Words and Expressions
Chapter 4  Unsteady-State Conduction
  4.1  The Lumped Capacitance Method
  4.2  Validity of the Lumped Capacitance Method  
  4.3  Spatial Effects
  4.4  Plane Wall with Convection
    4.4.1  Exact Solution
    4.4.2  Approximate Solution
  4.5  The Semi-Infinite Solid
  Review Questions
  Words and Expressions
Chapter 5  Introduction to Convection
  5.1  Convection Boundary Layers
    5.1.1  Velocity Boundary Layer
    5.1.2  Thermal Boundary Layer
    5.1.3  Significance of the Boundary Layers
  5.2  Local and Average Convection Coefficients
  5.3  Laminar and Turbulent Flow
  5.4  Boundary Layer Equations
  5.5  Physical Significance of the Dimensionless Parameters
  5.6  Convection Coefficients
  Review Questions
  Words and Expressions
Chapter 6  Empirical Correlations of Convection Heat Transfer
  6.1  External Flow
  6.1 1  Empirical Method
  6.1 2  The Flat Plate in Parallel Flow
  6.1 3  Methodology for a Convection Calculation
  6.1 4  The Cylinder in Cross Flow
  6.1 5  The Sphere in Flow
  6.1 6  Flow Across Banks of Tubes
  6.2  Internal Flow
    6.2.1  Hydrodynamic Considerations
    6.2.2  Thermal Considerations
    6.2.3  Convection Correlations in Circular Tubes
    6.2.4  Convection Correlations for Noncircular Tubes
  6.3  Free Convection
    6.3.1  Physical Considerations
    6.3.2  The Governing Equations
    6.3.3  Similarity Considerations
    6.3.4  Convection Correlations ( Reading Material)
  6.4  Boiling and Condensation
  Review Questions
  Words and Expressions
Chapter 7  Radiation: Processes and Properties
  7.1  Fundamental Concepts
  7.2  Radiation Intensity
    7.2.1  Mathematical Definitions
    7.2.2  Radiation Intensity and Its Relation to Emission
    7.2.3  Relation to Irradiation
    7.2.4  Relation to Radiosity
  7.3  Blackbody Radiation
    7.3.1  Planck Distribution
    7.3.2  Wien' s Displacement Law
    7.3.3  Stefan-Boltzmann Law
  7.4  Emission from Real Surfaces
  7.5  Absorption, Reflection, and Transmission by Real Surfaces
    7.5.1  Absorptivity
    7.5.2  Reflectivity
    7.5.3  Transmissivity
    7.5.4  Special Considerations
  7.6  Kirchhoff' s Law
  7.7  Gray Surface
  7.8  Radiation Exchange Between Surfaces
    7.8.1  View Factor
    7.8.2  Radiation Exchange Between Opaque, Diffuse, Gray Surfaces in an
  Enclosure
    7.8.3  Multimode Heat Transfer
    7.8.4  Radiation Exchange with Participating Media
Review Questions
Words and Expressions
References