Thermal Science
Series: MECHANICAL ENGINEERING;
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Product details:
- Publisher McGraw Hill
- Date of Publication 16 July 2012
- ISBN 9780071772341
- Binding Hardback
- No. of pages480 pages
- Size 261x203x25 mm
- Weight 1192 g
- Language English 0
Categories
Short description:
This concise, illustrated core thermal science text with a focus on industrial applications is essential for engineering students and those preparing for the FE/EIT exam
MoreLong description:
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.
A practical, illustrated guide to thermal science
A practical, illustrated guide to thermal scienceWritten by a subject-matter expert with many years of academic and industrial experience, Thermal Science provides detailed yet concise coverage of thermodynamics, fluid mechanics, and heat transfer. The laws of thermodynamics are discussed with emphasis on their real-world applications.
This comprehensive resource clearly presents the flow-governing equations of fluid mechanics, including those of mass, linear momentum, and energy conservation. Flow behavior through turbomachinery components is also addressed. The three modes of heat transfer--conduction, convection, and radiation--are described along with practical applications of each.
Thermal Science covers:
- Properties of pure substances and ideal gases
- First and second laws of thermodynamics
- Energy conversion by cycles
- Power-absorbing cycles
- Gas power cycles
- Flow-governing equations
- External and internal flow structures
- Rotating machinery fluid mechanics
- Variable-geometry turbomachinery stages
- Prandtl-Meyer flow
- Internal flow, friction, and pressure drop
- Fanno flow process for a viscous flow field
- Rayleigh flow
- Heat conduction and convection
- Heat exchangers
- Transfer by radiation
Instructor material available for download fromcompanion website
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.
A practical, illustrated guide to thermal science
A practical, illustrated guide to thermal scienceWritten by a subject-matter expert with many years of academic and industrial experience, Thermal Science provides detailed yet concise coverage of thermodynamics, fluid mechanics, and heat transfer. The laws of thermodynamics are discussed with emphasis on their real-world applications.
This comprehensive resource clearly presents the flow-governing equations of fluid mechanics, including those of mass, linear momentum, and energy conservation. Flow behavior through turbomachinery components is also addressed. The three modes of heat transfer--conduction, convection, and radiation--are described along with practical applications of each.
Thermal Science covers:
- Properties of pure substances and ideal gases
- First and second laws of thermodynamics
- Energy conversion by cycles
- Power-absorbing cycles
- Gas power cycles
- Flow-governing equations
- External and internal flow structures
- Rotating machinery fluid mechanics
- Variable-geometry turbomachinery stages
- Prandtl-Meyer flow
- Internal flow, friction, and pressure drop
- Fanno flow process for a viscous flow field
- Rayleigh flow
- Heat conduction and convection
- Heat exchangers
- Transfer by radiation
Instructor material available for download fromcompanion website
MoreTable of Contents:
PART 1: THERMODYNAMICS
Ch 1. Foreword
Ch 2. Definitions
Ch 3. Properties of Pure Substances
Ch 4. Properties of Ideal Gases
Ch 6. Energy Conversion By Cycles
Ch 7. Gas Power Cycles
PART II: FLUID MECHANICS
Ch 8. Flow-Governing Equations
Ch 9. Sonic Speed in Ideal Gases
Ch 10. Introduction of the Critical Mach Number
Ch 11. Continuity in Terms of the Critical Mach Number
Ch 12. Isentropic Flow Through Varying-Area Passages
Ch 13. Rotating Machinery Fluid Mechanics
Ch 14. Velocity Diagrams
Ch 15. Cross-Flow Area Variation
Ch 16. Supersonic Stator Cascade
Ch 17. Normal Shocks
Ch 18. Fanno Flow Process for a Viscous Flow Field
Ch 19. Rayleigh Flow
Ch 20. Dynamic Similarity (Similitude) Theory
Ch 21. Radial Equilibrium Theory
PART III: HEAT TRANSFER
Ch 22. Introduction
Ch 23. Heat Conduction
Ch 24. Heat Convection
Ch 25. Lumped Parameter Analysis
Ch 26. Heat Transfer By Radiation
Appendix A: Analysis
Appendix B: Charts and Tables
