Description
Heat Transfer in Aerospace Applications
Authors: Sundén Bengt, Fu Juan
Language: EnglishSubjects for Heat Transfer in Aerospace Applications:
Keywords
Ablation; Ablative material; Adiabatic wall temperature; Aerospace applications; Basic processes; Boiling; Boundary layer interaction; Boundary layer; Capillary limitation; CFD; Compact heat exchanger; Compressible flow; Computer codes; Condensation; Cryogenic tanks; Design; Electrolyte; Energy conversion efficiency; Extended surfaces; Fill level; Finite volume method; Flow regimes; Flow; Foam material; Fuel cell types; Gas Turbines; Heat balance; Heat exchange; Heat pipe types; Heat reduction; Heat transfer modes; High heat flux; Hydrogen peroxide; Illustrative examples; Integral method; Kapitza number; Kapitza resistance; Knudsen number; Liquid hydrogen tank; Loop heat pipes; Mach number; Mass gauging; Measurement error; Measurement techniques; Microchannels; Microgravity; Molecular mean free path; Pressurization; Primary surface; Pyrolysis; Recovery factor; Reynolds number; Shock wave; Solidification; Superconductivity; Temperature; Thermal management; Thermal protection; Thermal stratification; Unsteady heat conduction; Variable conductance heat pipe
120.27 €
In Print (Delivery period: 14 days).
Add to cart the print on demand of Sundén Bengt, Fu JuanSupport: Print on demand
Description
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Heat Transfer in Aerospace Applications is the first book to provide an overall description of various heat transfer issues of relevance for aerospace applications. The book contains chapters relating to convection cooling, heat pipes, ablation, heat transfer at high velocity, low pressure and microgravity, aircraft heat exchangers, fuel cells, and cryogenic cooling systems.
Chapters specific to low density heat transfer (4) and microgravity heat transfer (9) are newer subjects which have not been previously covered. The book takes a basic engineering approach by including correlations and examples that an engineer needs during the initial phases of vehicle design or to quickly analyze and solve a specific problem. Designed for mechanical, chemical, and aerospace engineers in research institutes, companies, and consulting firms, this book is an invaluable resource for the latest on aerospace heat transfer engineering and research.
Chapter 1. Introduction
Chapter 2. Ablation
Chapter 3. Aerodynamic Heating: Heat Transfer at High Speeds
Chapter 4. Low-Density Heat Transfer: Rarefied Gas Heat Transfer
Chapter 5. Cryogenics
Chapter 6. Aerospace Heat Exchangers
Chapter 7. Heat Pipes for Aerospace Application
Chapter 8. Fuel Cells
Chapter 9. Microgravity Heat Transfer
Chapter 10. Computational Methods for the Investigations of Heat Transfer Phenomena in Aerospace Applications
Chapter 11. Measuring Techniques
Researchers, laboratories and consulting firms with an interest in aerospace, thermodynamics, fluid mechanics and fundamental heat transfer
Juan Fu is a relatively recent PhD graduate working in the field of aerospace heat transfer.
- Provides an overall description of heat transfer issues of relevance for aerospace applications
- Discusses why thermal problems arise and introduces the various heat transfer modes
- Helps solve the problem of selecting and calculating the cooling system, the heat exchanger, and heat protection
- Features a collection of problems in which the methods presented in the book can be used to solve these problems
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