Loading…
Elementary heat transfer analysis /
Elementary Heat Transfer Analysis provides information pertinent to the fundamental aspects of the nature of transient heat conduction. This book presents a thorough understanding of the thermal energy equation and its application to boundary layer flows and confined and unconfined turbulent flows.
| Call Number: | Libro Electrónico |
|---|---|
| Main Author: | |
| Format: | Electronic eBook |
| Language: | Inglés |
| Published: |
New York :
Pergamon Press,
�1976.
|
| Series: | Pergamon unified engineering series ;
20. Pergamon international library of science, technology, engineering, and social studies. |
| Subjects: | |
| Online Access: | Texto completo |
Table of Contents:
- Front Cover; Elementary Heat Transfer Analysis; Copyright Page; The Author; Table of Contents; Preface; Nomenclature; Design Problem; Chapter 1. Introduction; 1.1 The continuum postulate; 1.2 The Laws of Continuum Physics; 1.3 Mechanisms of energy transport; 1.4 Units; 1.5 Design objectives; Solution to Design Problem; Problems; References; Design Problem II; Chapter 2. Steady, One-dimensional Heat Conduction; Summary of Section 2.1; 2.1 The fundamental energy postulate; 2.2 Steady heat conduction; 2.3 Steady, one-dimensional heat conduction in rectangular coordinates
- 2.4 Steady, one-dimensional heat conduction in cylindrical coordinates2.5 Steady, one-dimensional heat conduction in spherical coordinates; 2.6 Extended surfaces-the rectangular fin; 2.7 Order-of-magnitude analysis; Solution to Design Problem II; Problems; References; Design Problem III; Chapter 3. Transient Heat Conduction; 3.1 The governing equation for transient heat conduction; 3.2 Transient heat conduction for bodies with negligible internal resistance; 3.3 Transient heat conduction in a semi-infinite slab; Solution to Design Problem III; Problems; References; Design Problem IV
- Chapter 4. The Basic Equations of Momentum and Energy TransferSummary of Section 4.1; 4.1 Kinematics; Summary of Section 4.2; 4.2 The laws of mechanics; Summary of Section 4.3; 4.3 The energy principle; Summary of Section 4.4; 4.4 The thermal energy equation; Summary of Section 4.5; 4.5 The thermal energy equation for a general flow process; 4.6 Dimensional analysis for forced convection heat transfer; Summary of Section 4.7; 4.7 The momentum and energy equations for laminar boundary layer flow; 4.8 Exact solution of the laminar boundary layer equations; Summary of Section 4.9
- 4.9 Approximate solution of the laminar boundary layer equations4.10 Dimensional analysis for free convection; 4.11 Boundary layer analysis of free convection; Solution to Design Problem IV; Problems; References; Design Problem V; Chapter 5. Turbulent Flow; 5.1 Time averages; 5.2 Time-averaged form of the transport equations; 5.3 Turbulent momentum and energy transport; Solution to Design Problem V; Problems; References; Design Problem VI; Chapter 6. Macroscopic Balances; 6.1 The macroscopic mass balance; 6.2 The macroscopic momentum balance; 6.3 The macroscopic thermal energy balance
- 6.4 Film heat transfer coefficients for pipe flow: analysisSummary of Section 6.5; 6.5 Dimensional analysis for heat transfer to a fluid flowing in a tube; 6.6 Experimental data and empirical correlations for heat transfer for flow in pipes; 6.7 Heat transfer to fluids flowing past flat plates, cylinders, and spheres; 6.8 Heat transfer for flow in packed beds and tube bundles; 6.9 Free convection; Solution to Design Problem VI; Problems; References; Design Problem VII; Chapter 7. Thermal Radiation; 7.1 Electromagnetic radiation; Summary of Section 7.2; 7.2 The photon transport equation