Refrigeration and Air Conditioning 3ED (IE) ISBN9780071267564

Contents

1.  Introduction

                1.1     A Brief History of Refrigeration

                1.2     Systeme International d’Unites (SI Units)

                1.3     Thermodynamic Systems, State, Properties< Processes, Heat and Work

                1.4     First Law of Thermodynamics

                1.5     Second Law of Thermodynamics

                1.6     Non-flow Processes

                1.7     Steady-Flow Processes

                1.8     Thermodynamic State of a Pure Substance

                1.9     Heat Exchange Processes

                1.10   Production of Low Temperatures

                1.11   Saturation Pressure versus Saturation Temperature Relationship

                1.12   The Gaseous Phase: Equation of State

                1.13   Clapeyron Equation

                1.14   Property Relations

                1.15   Thermodynamic Properties of Refrigerants

                1.16   Modes of Heat Transfer

                1.17   Laws of Heat Transfer

                1.18   Electrical Analogy

                1.19   Steady-State Conduction

                1.20   Heat Transfer from Extended Surface

                1.21   Unsteady-State Conduction

                1.22   Forced Convection Correlations

                1.23   Free Convection Correlations

                1.24   Design of Heat Exchangers

                1.25   Mass Transfer

                1.26   Analogy between Momentum, Heat and Mass Transfer

                         References

                         Revision Exercises

2.  Refrigerating Machine and Reversed Carnot Cycle

                2.1     Refrigerating Machines

                2.2     A Refrigerating Machines---The Second Law Interpretation

                2.3     Heat Engine, Heat Pump and Refrigerating Machine

                2.4     Best Refrigeration Cycle : The Carnot Principle

                2.5     Vapour as a Refrigerant in Reversed Carnot Cycle

                2.6     Gas as a Refrigerant in Reversed Carnot Cycle

                2.7     Limitations of Reversed Carnot Cycle

                2.8     Actual Refrigeration Systems

                          Revision Exercises

3.  Vapour Compression System

                3.1     Modifications in Reversed Carnot Cycle with Vapour as a Refrigerant

                3.2     Vapour Compression Cycle

                3.3     Vapour Compression System Calculations

                3.4     Ewing’s Construction

                3.5     Standard Rating Cycle and Effect of Operating Conditions

                3.6     Actual Vapour Compression Cycle

                3.7     Standard Rating Cycle for Domestic Refrigerators

                3.8     Heat Pump

                3.9     Second Law Efficiency of Vapour Compression Cycle

                          References

                         Revision Exercises

4.   Refrigerants

5.   Multipressure Systems

6.    Refrigerants Compressors

7.    Condensers

8.    Expansion Devices

9.    Evaporators

10.  Complete Vapour Compression System

11.  Gas Cycle Refrigeration

12.  Vapour---Absorption System

13.  Ejector-Compression System

14.  Properties of Moist Air

15.  Psychrometry of Air- Conditioning Processes

16.  Design Conditions

17.  Solar Radiation

18.  Heat Transfer  through Building Structures

19.  Load Calculations and Applied Psychrometrics

20.  Design of Air-Conditioning Apparantus

21.  Transmission and Distribution of Air

22.  Fans

23.  Refrigeration and Air Conditioning Control

24.  Applications in Food Refrigeration/Processing and Industrial Air Conditioning

Appendix A   Thermodynamic Properties Correlations for Refrigerants

Appendix B   Tables

Appendix C   Chart Ex. Sheets

Index