Thermodynamics and heat powered cycles : a cognitive engineering approach /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Wu, Chih, 1936-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, ©2007.
Temas:
Thermodynamics > Data processing.
Thermodynamique > Informatique.
TECHNOLOGY & ENGINEERING > Mechanical.
Thermodynamics > Data processing
Acceso en línea:Texto completo
Tabla de Contenidos:
  • THERMODYNAMICS AND HEATPOWERED CYCLES:A COGNITIVEENGINEERING APPROACH
  • NOTICE TO THE READER
  • CONTENTS
  • PREFACE
  • ACKNOWLEDGEMENTS
  • BASIC CONCEPTS
  • 1.1. THERMODYNAMICS
  • Homework 1.1. Thermodynamics
  • 1.2. BASIC LAWS
  • Homework 1.2. Basic Laws
  • 1.3. WHY STUDY THERMODYNAMICS?
  • Homework 1.3. Why Study Thermodynamics?
  • 1.4. DIMENSIONS AND UNITS
  • Example 1.4.1.
  • Example 1.4.2.
  • Homework 1.4. Dimensions and Units
  • 1.5. SYSTEMS
  • Homework 1.5. Systems
  • 1.6. PROPERTIES OF A SYSTEM
  • 1.6.1. Volume (V)
  • 1.6.2. Density (Ï?) and Specific Volume (v)Example 1.6.1.
  • 1.6.3. Pressure (p)
  • Example 1.6.3.1.
  • Example 1.6.3.2.
  • 1.6.4. Temperature (T)
  • Example 1.6.4.1.
  • 1.6.5. Energy (E)
  • 1.6.6. Enthalpy (H)
  • 1.6.7. Specific Heat (c, cp and cv)
  • 1.6.8. Ratio of the Specific Heats (k)
  • 1.6.9. Quality, Dryness and Moisture Content
  • Example 1.6.9.1.
  • 1.6.10. Entropy (S)
  • 1.6.11. Point Function
  • Homewok 1.6. Properties
  • 1.7. EQUILIBRIUM STATE
  • Homework 1.7. Equilibrium State
  • 1.8. PROCESSES AND CYCLES
  • Homework 1.8. Processes and Cycles1.9. CYCLEPAD
  • 1.9.1. Download
  • 1.9.2. Installation onto your own PC
  • 1.9.3. Contents
  • 1.9.4. Modes
  • 1.10. SUMMARY
  • PROPERTIES OF THERMODYNAMIC SUBSTANCES
  • 2.1. THERMODYNAMIC SUBSTANCES
  • Homework 2.1. Thermodynamic Substances
  • 2.2. PURE SUBSTANCES
  • Example 2.2.1.
  • Example 2.2.2.
  • Example 2.2.3.
  • Example 2.2.4.
  • Example 2.2.5.
  • Example 2.2.6.
  • Example 2.2.7.
  • Example 2.2.8.
  • Example 2.2.9.
  • Example 2.2.10.
  • Homework 2.2. Pure substances
  • 2.3. IDEAL GASES
  • Example 2.3.1. Example 2.3.2.
  • Example 2.3.3.
  • Example 2.3.4.
  • Example 2.3.5.
  • Example 2.3.6.
  • Example 2.3.7.
  • Homework 2.3. Ideal gases
  • 2.4. REAL GASES
  • Example 2.4.1.
  • Homework 2.4. Real gases
  • 2.5. INCOMPRESSIBLE SUBSTANCES
  • Example 2.5.1.
  • Example 2.5.2.
  • Example 2.5.3.
  • Homework 2.5. Incompressible substances (Liquids and solids)
  • 2.6. SUMMARY
  • FIRST LAW OF THERMODYNAMICSFOR CLOSED SYSTEMS
  • 3.1. INTRODUCTION
  • Homework 3.1. Introduction
  • 3.2. WORK
  • Example 3.2.1.
  • Example 3.2.2.
  • Example 3.2.3.
  • Homework 3.2. Work3.3. HEAT
  • Homework 3.3. Heat
  • 3.4. FIRST LAW OF THERMODYNAMICS FOR A CLOSED SYSTEM
  • Example 3.4.2.
  • Homework 3.4. First Law of Thermodynamics for a Closed System
  • 3.5. FIRST LAW OF THERMODYNAMICS FOR ACLOSED SYSTEM APPLY TO CYCLES
  • Example 3.5.1.
  • Homework 3.5. First Law of Thermodynamics for a Closed System Apply toCycles
  • 3.6. CLOSED SYSTEM FOR VARIOUS PROCESSES
  • 3.6.1. Constant Volume (Isochoric or Isometric) Process
  • Homework 3.6.1. Constant Volume
  • 3.6.2. Constant Pressure (Isobaric) Process

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