Fundamentals of engineering thermodynamics / Michael J. Moran ... [et al.].
Publication details: [Hoboken, N.J.?] : Wiley, c2010.Edition: 7th editionDescription: xi, 725 p. : ill.(col) ; 26 cmISBN:- 9780470917688 (acidfree paper)
- 9780470470540190
- 22 62113243 MOR
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| 621.942 HOU 1 Lathes Automatic Lathes, Single and Multiple- Spindle/ | 621.942 MAS 1 Using the small Lathe/ | 62113243 MOR 1 Fundamentals of engineering thermodynamics / | 62113243 MOR 2 Fundamentals of engineering thermodynamics / | 622 HAR Introductory mining engineering / | 622 HAR 1 Introductory mining engineering / | 622 HAR 2 Introductory mining engineering / |
CONTENT
Chapter 1
Getting Started : Introductory Concepts and Definitions
1.1 Using Thermodynamics
1.2 Defining Systems
1.3 Describing Systems and their Behaviour
1.4 Measuring mass, Length, Time
1.5 Two measurable Properties
Chapter 2
Energy and the the first Law of Thermodynamics
2.1 Reviewing Mechanical Concepts of Energy
2.2 Broading our Understanding of Work
2.3 Broading our understanding of energy
2.4 Energy Transfer of Heat
2.5 Energy accounting
etc
Chapter 3
Evaluating Properties
3.1 Fixing the States
3.2 Relation
3.3 Retrieving Thermodynamic Properties
3.4 Generalised Compressibility
etc
Chapter 4
Control Volume Analysis Using Energy
4.1 Conservation of mass For Control Volume
4.2 Conservation of Energy for a Control volume
4.3 Analyzing Control volumes of Steady states
4.4 Transient Analysis
chapter 5
the Second Law of Thermodynamics
5.1 Introducing the Second Law
5.2 Indentifying Irreversibilities
5.3 Applying the second Law to Thermodynamics cycles
5.4 Defining the Kelvin Temperature Scale
5.5 Maximum performance measures for cycles
Etc
Chapter 6 Using Entropy
6.1 Introducing Entropy
6.2 Defining Entropy change
6.3 Retrieving Entropy Data
6.4 Entropy Change in Internally Reversible Processes
6.5 Entropy Balance for closed system
Etc
Chapter 7
Exergy Analysis
7.1 Introducing Exergy
7.2 Defining Exergy
7.3 Closed System Exergy Balance
7.4 Flow Exergy
7.5 Exergy Rate Balance for Energy Control
Etc
Chapter 8
Vapor Power System
8.1 Modeling vapour power system
8.2 Analysing Vapor Power Systems
8.3 Improving Performances
8.4 Improving Performance
8.5 Other Vapor Cycle aspect
Etc
Chapter 9
Gas Power Systems
9.1 Introducing Engine Terminology
9.2 Air Standard Otto cycle
9.3 Air standard Diesel Cycle
9.4 Air Standard Dual Cycle
9.5 Modeling Gas Turbine power plants
etc
Chapter 10
Refrigeration and Heat Pump system
10.1 Vapor Refrigeration Systems
10.2 Analysing Vapor Compression Refrigeration
10.3 Refrigerant Properties
10.4 Cascade and Multistage Vapor Compression Systems
10.5 absorption Refrigeration
Etc
Chapter 11
Thermodynamic Relations
11.1 Using Equation of State
11.2 Important Mathematical Relations
11.3 Developing Property Relations
11.4 Evaluating Changes in Entropy
11.5 Other Thermodynamic Relations
Etc
Chapter 12
Ideal Gas Mixtures and Psychometrics Applications
12.1 Describing mixture Composition
12.2 Relating
12.3 Evaluating
12.4 analysing Systems involving Mixtures
12.5 Introducing Psychometric Principles
Etc
Chapter 13
Reacting Mixtures and Combustion
13.1 Introducing Combustion
13.2 Conservati9on of Energy
13.3 Determining the Adiabatic Flame
13.4 Fuel Cells
etc
Chapter 14 Chemical and Phase Equilibrium
14.1 introducing Equilibrium Criteria
14.2 Equation of Reaction equilibrium
14.4 Further examples of the use of Equilibrium
14.5 Equilibrium between two Phases
etc
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