HVAC Systems Design Handbook 4th Edition, ISBN-13: 978-0071395861

Description

HVAC Systems Design Handbook 4th Edition, ISBN-13: 978-0071395861

[PDF eBook eTextbook] – Available Instantly

Publisher: McGraw-Hill Professional; 4th edition (February 28, 2003)

Language: English

513 pages

ISBN-10: 0071395865

ISBN-13: 978-0071395861

UPDATED TO REFLECT THE LATEST CODES AND SPECIFICATIONS ONE-STOP GUIDANCE ON DESIGNING EFFICIENT AND EFFECTIVE RESIDENTIAL, COMMERCIAL, AND INDUSTRIAL HVAC SYTEMS

Here’s an all-in-one working tool for every phase of the HVAC design process – packed with a treasury of applications and invaluable on-the-job insights that reflect the author’s half-century in the HVAC field.

Featuring today’s only truly integrated approach to the subject, the Handbook offers thorough coverage of the latest technological and procedural advances in the design and installation of HVAC systems. The Fourth Edition offers completely updated code references, new coverage of energy conservation and digital control practice, and a greater focus on indoor air quality, including maintenance and operation.

Enhanced by more than 300 job-simplifying illustrations and tables, the Handbook provides HVAC design pros with everything they need to design, operate, and maintain peak-performing HVAC systems.

Table of Contents:

Contents

Preface

Acknowledgments

Introduction

Chapter 1. HVAC Engineering Fundamentals: Part 1

1.1 Introduction

1.2 Problem Solving

1.3 Value Engineering

1.4 Codes and Regulations

1.5 Fluid Mechanics

1.6 Thermodynamics

1.7 Heat Transfer

1.8 Psychrometrics

1.9 Sound and Vibration

1.10 Energy Conservation

1.11 Summary

References

Chapter 2. HVAC Engineering Fundamentals: Part 2

2.1 Introduction

2.2 Comfort

2.3 Use of Psychrometrics

2.4 HVAC Cycles

2.5 Control Strategies

2.6 Architectural, Structural, and Electrical Considerations

2.7 Conceptual Design

2.8 Environmental Criteria for Typical Buildings

2.9 Designing for Operation and Maintenance

2.10 Summary

References

Chapter 3. Design Procedures: Part 1—Load Calculations

3.1 Introduction

3.2 Use of Computers

3.3 Rule-of-Thumb Calculations

3.4 Design Criteria

3.5 Factors for Load Components

3.6 Load Calculations

3.7 Dynamic versus Static Load Calculations

3.8 Ventilation Loads

3.9 Other Loads

3.10 Summary

References

Chapter 4. Design Procedures: Part 2—General Concepts for Equipment Selection

4.1 Introduction

4.2 Criteria for System and Equipment Selection

4.3 Options in System and Equipment Selection

4.4 The Psychrometric Chart

4.5 Effects of Altitude and Temperature

4.6 Use of Computers

4.7 Summary

References

Chapter 5. Design Procedures: Part 3—Air-Handling Systems

5.1 Introduction

5.2 Fans

5.3 Air Duct Design

5.4 Diffusers, Grilles, and Registers

5.5 Louvers

5.6 Dampers

5.7 Filters

5.8 Air Distribution with High Flow Rates

5.9 Stratification

5.10 Noise Control

5.11 Indoor Air Quality

5.12 Summary

References

Chapter 6. Design Procedures: Part 4—Fluid-Handling Systems

6.1 Introduction

6.2 Steam

6.3 Water

6.4 High-Temperature Water

6.5 Secondary Coolants (Brines and Glycols)

6.6 Piping Systems

6.7 Pumps

6.8 Refrigerant Distribution

6.9 Summary

References

Chapter 7. Design Procedures: Part 5—Central Plants

7.1 Introduction

7.2 General Plant Design Concepts

7.3 Central Steam Plants

7.4 Central Hot Water Plants

7.5 High-Temperature Hot Water Plants

7.6 Fuel Options and Alternative Fuels

7.7 Chilled Water Plants

7.8 Thermal Storage Systems

7.9 Heat Recovery Plants

7.10 Central Plant Distribution Arrangements

7.11 Cogeneration Plants

7.12 Summary

References

Chapter 8. Design Procedures: Part 6—Automatic Controls

8.1 Introduction

8.2 Controls Fundamentals

8.3 Control Devices

8.4 Instrumentation

8.5 Typical Control Systems

8.6 Electrical Interfaces

8.7 Computer-Based Controls

8.8 Control Symbols

8.9 Summary

References

Chapter 9. Equipment: Part 1—Cooling

9.1 Introduction

9.2 Refrigeration Cycles

9.3 Compressors

9.4 Chillers

9.5 Condensers

9.6 Cooling Towers

9.7 Cooling Coils

9.8 Radiant Cooling

9.9 Evaporative Cooling

9.10 Refrigerants

9.11 Summary

References

Chapter 10. Equipment: Part 2—Heating

10.1 Introduction

10.2 General

10.3 Boiler Applications

10.4 Boiler Types

10.5 Combustion Processes and Fuels

10.6 Fuel-Burning Equipment

10.7 Boiler Feedwater and Water Treatment Systems

10.8 Boiler Codes and Standards

10.9 Boiler Design

10.10 Acceptance and Operational Testing

10.11 Direct- and Indirect-Fired Heating Equipment

10.12 Heat Exchangers—Water Heating

10.13 Heat Exchangers—Air Heating

10.14 Unit Heaters and Duct Heaters

10.15 Terminal Heating Equipment

10.16 Heat Pumps

10.17 Heat Recovery and Reclaim

10.18 Solar Heating

10.19 Humidification

10.20 Summary

References

Chapter 11. Equipment: Part 3—Air-Handling Systems

11.1 Introduction

11.2 AHU System Arrangements

11.3 Package Air-Handling Units

11.4 Built-Up (Field-Assembled) AHU

11.5 Terminal Units

11.6 Individual Room AHUs

11.7 Humidity Control

11.8 Control of Outside Air Quantity

11.9 Effects of Altitude

11.10 Exhaust Systems

11.11 Smoke Control

11.12 Summary

References

Chapter 12. Electrical Features of HVAC Systems

12.1 Introduction

12.2 Fundamentals of Electrical Power

12.3 Common Service Voltages

12.4 Power Factor

12.5 Motors

12.6 Variable-Speed Drives

12.7 HVAC–Electrical Interface

12.8 Uninterruptible Power Supply

12.9 Standby Power Generation

12.10 Electrical Room Ventilation

12.11 Lighting Systems

12.12 National Electric Code

12.13 Summary

References

Chapter 13. Design Documentation: Drawings and Specifications

13.1 Introduction

13.2 The Nature of Contracts

13.3 Drawings

13.4 Specifications

13.5 Summary

References

Chapter 14. After Design: Through Construction to Operation

14.1 Introduction

14.2 Participation during Construction

14.3 Commissioning

14.4 Summary

References

Chapter 15. Technical Report Writing

15.1 Introduction

15.2 Organization of a Report

15.3 Writing with Clarity

15.4 Use of Tables and Figures

15.5 Printing and Binding

15.6 Letter Reports

15.7 Summary

Reference

Chapter 16. Engineering Fundamentals: Part 1—Fluid Mechanics

16.1 Introduction

16.2 Terms in Fluid Mechanics

16.3 Law of Conservation of Mass

16.4 The Bernoulli Equation (Law of Conservation of Energy)

16.5 Flow Volume Measurement

16.6 Summary

References

Chapter 17. Engineering Fundamentals: Part 2—Thermodynamics

17.1 Introduction

17.2 Thermodynamics Terms

17.3 First Law of Thermodynamics

17.4 Second Law of Thermodynamics

17.5 Efficiency

17.6 Coefficient of Performance

17.7 Specific Heat C[sub(p)]

17.8 Summary

References

Chapter 18. Engineering Fundamentals: Part 3—Heat Transfer

18.1 Introduction

18.2 Heat Transfer Modes

18.3 Thermal Conduction

18.4 Thermal Convection

18.5 Thermal Radiation

18.6 Latent Heat and Moisture

18.7 Summary

References

Chapter 19. Engineering Fundamentals: Part 4—Psychrometrics

19.1 Introduction

19.2 Thermodynamic Properties of Moist Air

19.3 Tables of Properties

19.4 Psychrometric Charts

19.5 HVAC Processes on the Psychrometric Chart

19.6 The Protractor on the ASHRAE Psychrometric Chart

19.7 Effects of Altitude

19.8 Summary

References

Chapter 20. Engineering Fundamentals: Part 5—Sound and Vibration

20.1 Introduction

20.2 Definitions

20.3 Methods of Specifying and Measuring Sound

20.4 Sound and Vibration Transmission

20.5 Ambient Sound-Level Design Goals

20.6 Reducing Sound and Vibration Transmission

20.7 Summary

References

Chapter 21. Indoor Air Quality

21.1 Background

21.2 Negative Effects of Poor Air Quality

21.3 Positive Effects of Air Quality

21.4 Sources of Poor Air Quality

21.5 Attaining Good IAQ: Responsibilities of the Designer

References

Index

Roger W. Haines, P.E. is widely recognized as one of the foremost authorities in the field of HVAC Engineering. He is the author of Roger Haines on HVAC Controls and is a frequent contributor to HPAC Engineering Magazine. Mr. Haines resides in Laguna Woods,California.

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