Fundamentals of thermodynamics / Claus Borgnakke, Richard E. Sonntag.
Publisher: Hoboken, NJ : Wiley, c2009Edition: 7th editionDescription: xvii, 777 p. : ill. (some col.) ; 26 cmISBN:- 9780470171578
- 536.7 22 BOR
| Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
|---|---|---|---|---|---|---|
Book Closed Access
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Engineering Library | 536.7 BOR. 1 (Browse shelf(Opens below)) | 1 | Available | BUML23080197 | |
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Book Closed Access
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Engineering Library | 536.7 BOR. 2 (Browse shelf(Opens below)) | 2 | Available | BUML23080198 |
Contents
1. Introduction1. The simple steam power plant
1.2 fuel cells
1.3 the vapour-compression, etc
2. CONTROL VOLUMES AND UNITS
2.1 A thermodynamic system and the control volume, 13
2.3 properties and a state of a substance, etc
3.PURE SUBSTANCE BEHAVIOR
3.1 The pure substance
3.2 vapor-liquid-solid-phase equilibrium in a pure substance, etc
4. ENERGY TRANSFERS
4.1 definition of work
4.2 units of work
4.3 work done at the moving boundary for a control mass undergoing system, etc
5. ENERGY EQUATION FOR A CONTROL MASS
5.1 The first law of thermodynamics for a control mass undergoing a cycle
5.2 The first law of thermodynamics for a change in state of a control mass
5.3 Internal Energy- A thermodynamic property, etc
6 ENERGY EQUATION FOR A CONTROL VOLUME
6.1 Conservation of mass and the control volume
6.2 The first law of thermodynamics for a control volume
6.3 The steady-state process, etc
7 THE CLASSICAL SECOND LAW
7.1 Heat engines and refrigerators
7.2 The second law of thermodynamics
7.3 The reversible process, etc
8. ENTROPY FOR A CONTROL MASS
8.1 The inequality of clauses
8.2 Entropy - a property of a system
8.3 The entropy of a pure substance, etc
9 ENTROPY EQUATION FOR A CONTROL VOLUME
9.1 the second law of thermodynamics fo a control volume
9.2 The steady-sate process and the transient process
9.3 the steady-state single-flow process, etc
10. AVAILABILITY
10.1 Availability energy, Reversible work, and and irreversibility, etc
10.2 Availability and the second ;law of efficiency
10.3 Exergy balance equation, etc
11 POWER AND REFRIGILATION SYSTEMS - WITH PHASE CHANGE
11.1 Introduction to power systems
11.2 The Rankins cycle
11.3 Effect of pressure and temperature on the Rankine cycle , etc
12. POWER AND REFRIGILATION SYSTEMS -HGASEOUS WORKING FLUIDS
12.1 Air-standard power cycles
12.2 The Braycon cycle
12.3 The simple Gas- Turbine cycle with a regenerator, etc
13 IDEAL GAS MIXTURES
13.1 GENERAL CONSIDERTIPONS AND MIXTURES
13.2 a SIMPLIFIED MODEL OF A MIXTURE INVOLVING GASSES, etc
14. THERMODYNAMIC PROPERTY RELATIONS
14.1 the clapeyron equation
14.2 mathematical relations for a homogeneous phase
14.3 the Maxwell relations, etc
15. COMBUSTION
15.1 fuels
15.2 The combustion process
15.3 Enthalpy of formation, etc
16. PAHSE AND CHEMICAL EQUILIBRIUM
16.1 Requirements foe equilibrium
16.2 Equilibrium between two phases of a pure substance
16.3 Metastable equilibrium, etc
17. COMPRESSIBLE FLOW
17.1 Stagnation properties
17.2 The momentum equation
17.3 Forces Acting on a control volume, etc
Index : p. 771-777
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