Thermodynamics: an engineering approach/ Yunus Cengel, Michael A.Boles
Publication details: Singapore: Boston McGrowHill 2008Edition: 7th editionDescription: 978 p. : Col ill. ; 26 cmSubject(s): DDC classification:- 22 621.402 CEN
Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
---|---|---|---|---|---|---|
Book Closed Access | Engineering Library | 621.402 CEN. 1 (Browse shelf(Opens below)) | 1 | Available | BUML23100511 | |
Book Closed Access | Engineering Library | 621.402 CEN. 2 (Browse shelf(Opens below)) | 2 | Available | BUML23100510 | |
Book Closed Access | Engineering Library | 621.402 CEN. 3 (Browse shelf(Opens below)) | 3 | Available | BUML23100505 | |
Book Closed Access | Engineering Library | 621.402 CEN.4 (Browse shelf(Opens below)) | 4 | Available | BUML23100501 | |
Book Closed Access | Engineering Library | 621.402 CEN. 5 (Browse shelf(Opens below)) | 5 | Available | BUML23100503 |
CONTENTS
Chapter one Introduction and basic concepts
1.1 Thermodynamics and energy
1.2 Importance of dimensions and units
1.3 Systems and control volumes
etc
Chapter two Energy, Energy transfer, and general energy analysis
2.1 Introduction
2.2 Forms of energy
2.3 Energy transfer by heat
etc
Chapter three Properties of pure substances
3.1 Pure substance
3.2 Phases of a pure substance
3.3 Phase-change Processes of pure substances
etc
Chapter four Energy analysis of closed systems
4.1 Moving Boundary work
4.2 Energy balance for closed systems
4.3 Specific heats
etc
Chapter Five Mass energy analysis of control volumes
5.1 Conservation of mass
5.2 Flow work and energy of a flowing fluid
5.3 Energy analysis of a study -flow systems
etc
Chapter six The second law of thermodynamics
6.1 Introduction to second law
6.2 Thermal energy reservoirs
6.3 Heat engines
etc
Chapter seven Entopy
7.1 Entropy
7.2 The increase of entropy principle
7.3 Entropy change of pure substance
etc
Chapter Eight Energy : A measure of work potential
8.1 Energy: Work potential of energy
8.2 Reversible work and irreversibility
8.3 Second law Efficience
etc
Chapter Nine Gas power cycles
9.1 Basic consideration in the analysis of power cycles
9.2 The Carnot cycle and its value in engineering
9.3 Air standard assumption
etc
Chapter Ten Vapor and combined power cycle
10.1 The Carnot Vapor cycle
10.2 Rankine cycle: The ideal cycle for vapow power cycle
10.3 Deviation of actual vapor power cycles from idealized ones
etc
Chapter Eleven Refrigeration cycles
11.1 Refrigerators and heat pumps
11.2 The reversed carnot cycle
11.3 The Ideal vapor-Compression refrigeration cycle
etc
Chapter Twelve Thermodynamic property relations
12.1 A little math-partial derivatives
12.2 The Maxwell relation
12.3 The clapeyron equation
etc
Chapter thirteen Gas Mixtures
13.1 Composition of a gas Mixture: Mass and mole fraction
13.2 Behaviour of gas Mixtures: Ideal and real gases
13.3 Properties of gas Mixtures: Ideal and real gases
Chapter fourteen Gas Vapor Mixtures and Air-Conditioning
14.1 Dry and atmospheric air
14.2 Specific and relative humidity of air
14.3 Dew-point temperature
etc
Chapter fifteen Chemical reactions
15.1 Fuels and Combustion
15.2 Theoretical and Actual Combustion processes
15.3 Enthalpy of formation and Enthalpy of combustions
etc
Chapter sixteen Chemical and phase equilibrium
16.1 Criterion for chemical Equilibrium
16.2 The equilibrium Constant for Ideal-Gas Mixtures
16.3 Some remarks about the K of ideal-gas Mixtures
etc
Chapter seventeen Compressible Flow
17.1 Stagnation properties
17.2 Speed of sound and mach number
17.3 One dimensional Isentropic flow
17.4 Isentropic flow Through Nozzles
etc
Includes index 953-978p.
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