Başlık:
Fundamentals of engineering thermodynamics : SI version
Yazar:
Moran, Michael J.
ISBN:
9780471979609
Ek Yazar:
Edition:
3rd ed.
Yayım Bilgisi:
Chichester ; New York : John Wiley, c1998.
Fiziksel Tanım:
xiii, 799 p. : ill. ; 26 cm.
Konu Terimleri:
Added Author:
Mevcut:*
Library | Materyal Türü | Barkod | Yer Numarası | Durum |
|---|---|---|---|---|
Searching... Pamukkale Merkez Kütüphanesi | Kitap | 0010800 | TJ265.M66 1998 | Searching... Unknown |
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Özet
Özet
Presents a comprehensive and rigorous treatment of the subject from the classical perspective to offer a problem-solving methodology that encourages systematic thinking. Noted for its treatment of the second law, this text clearly presents both theory and application. The presentation of chemical availability has been extended by a cutting- edge discussion of standard chemical availability. Design applications and problems have been updated to include economic considerations. Environmental topics have also been expanded and updated. The new version of Interactive Thermodynamics (IT) is a powerful windows-based software program that now includes equation-solver, printing, graphing, data retrival and simulation capabilities.
Table of Contents
| Chapter 1 Getting Started: Introductory Concepts and Definitions |
| 1.1.1 Using Thermodynamics |
| 1.2 Defining Systems |
| 1.3 Describing Systems and Their Behavior |
| 1.4 Measuring Mass, Length, Time, and Force |
| 1.5 Two Measurable Properties: Specific Volume and Pressure |
| 1.6 Measuring Temperature |
| 1.7 Engineering Design and Analysis |
| Chapter Summary and Study Guide |
| Chapter 2 Energy and 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 By Heat |
| 2.5 Energy Accounting: Energy Balance for Closed Systems |
| 2.6 Energy Analysis of Cycles |
| Chapter Summary and Study Guide |
| Chapter 3 Evaluating Properties |
| 3.1 Fixing the State |
| Evaluating Properties: General Considerations |
| 3.2 p-v-T Relation |
| 3.3 Retrieving Thermodynamic Properties |
| 3.4 Generalized Compressibility Chart |
| Evaluating Properties Using the Ideal Gas Model |
| 3.5 Ideal Gas Model |
| 3.6 Internal Energy, Enthalpy, and Specific Heats of Ideal Gases |
| 3.7 Evaluating Du and Dh using Ideal Gas Tables, Software, and Constant Specific Heats |
| 3.8 Polytropic Process of an Ideal Gas |
| Chapter Summary and Study Guide |
| Chapter 4 Control Volume Analysis Using Energy |
| 4.1 Conservation of Mass for a Control Volume |
| 4.2 Conservation of Energy for a Control Volume |
| 4.3 Analyzing Control Volumes at Steady State |
| 4.4 Transient Analysis |
| Chapter Summary and Study Guide |
| Chapter 5 The Second Law of Thermodynamics |
| 5.1 Introducing the Second Law |
| 5.2 Identifying Irreversibilities |
| 5.3 Applying the Second Law to Thermodynamic Cycles |
| 5.4 Defining the Kelvin Temperature Scale |
| 5.5 Maximum Performance Measures for Cycles Operating Between Two Reservoirs |
| 5.6 Carnot Cycle |
| Chapter Summary and Study Guide |
| 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 Systems |
| 6.6 Entropy Rate Balance for Control Volumes |
| 6.7 Isentropic Processes |
| 6.8 Isentropic Efficiencies of Turbines, Nozzles, Compressors, and Pumps |
| 6.9 Heat Transfer and Work in Internally Reversible, Steady-State Flow Processes |
| Chapter Summary and Study Guide |
| 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 Control Volumes |
| 7.6 Exergetic (Second Law) Efficiency |
| 7.7 Thermoeconomics |
| Chapter Summary and Study Guide |
| Chapter 8 Vapor Power Systems |
| 8.1 Modeling Vapor Power Systems |
| 8.2 Analyzing Vapor Power Systems?Rankline Cycle |
| 8.3 Improving Performance?Superheat and Reheat |
| 8.4 Improving Performance?Regenerative Vapor Power Cycle |
| 8.5 Other Vapor Cycle Aspects |
| 8.6 Case Study: Exergy Accounting of a Vapor Power Plant |
| Chapter Summary and Study Guide |
| Chapter 9 Gas Power Systems |
| Internal Combustion Engines |
| 9.1 Introducing Engine Terminology |
| 9.2 Air-Standard Otto Cycle |
| 9.3 Air-Standard Diesel Cycle |
| 9.4 Air-Standard Dual Cycle |
| Gas Turbine Power Plants |
| 9.5 Modeling Gas Turbine Power Plants |
| 9.6 Air-Standard Brayton Cycle |
| 9.7 Regenerative Gas Turbines |
| 9.8 Regenerative Gas Turbines with Reheat and Intercooling |
| 9.9 Gas Turbines for Aircraft Propulsion |
| 9.10 Combined Gas Turbine? |
| Vapor Power Cycle |
| 9.11 Ericsson and Stirling Cycles |
| Compressible Flow Through Nozzles and Diffusers |
| 9.12 Compressible Flow Preliminaries |
| 9.13 Analyzing One-Dimensional Steady Flow in Nozzles and Diffusers |
| 9.14 Flow in Nozzles and Diffusers of Ideal Gases with Constant Specific Heats |
| Chapter Summary and Study Guide |
| Chapter 10 Refrigeration and Heat Pump Systems |
| 10.1 Vapor Refrigeration Systems |
| 10.2 Analyzing Vapor-Compression Refrigeration Systems |
| 10.3 Refrigerant Properties |
| 10.4 Cascade and Multistage Vapor-Compression Systems |
| 10.5 Absorption Refrigeration |
| 10.6 Heat Pump Systems |
| 10.7 Gas Refrigeration Systems |
| Chapter Summary and Study Guide |
| Chapter 11 Thermodynamic Relations |
| 11.1 Using Equations of State |
| 11.2 Important Mathematical Relations |
| 11.3 Developing Property Relations |
| 11 |
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