Sale!

Solution Manual (Complete Download) for Heating, Ventilating and Air Conditioning: Analysis and Design, 6th Edition, Faye C. McQuiston, Jerald D. Parker, Jeffrey D. Spitler, ISBN : 9780471470151, Instantly Downloadable Solution Manual

$90.00 $50.00

Solution Manual for Heating, Ventilating and Air Conditioning: Analysis and Design, 6th Edition, Faye C. McQuiston, Jerald D. Parker, Jeffrey D. Spitler, ISBN : 9780471470151

All payments are made in private and secure environment.

Email

Description

Downloadable Instructor’s Solution Manual for Heating, Ventilating and Air Conditioning: Analysis and Design, 6th Edition, Faye C. McQuiston, Jerald D. Parker, Jeffrey D. Spitler, ISBN : 9780471470151, Instructor’s Solution Manual (Complete) Download

You are buying Solution Manual. A Solution Manual is step by step solutions of end of chapter questions in the text book. Solution manual offers the complete detailed answers to every question in textbook at the end of chapter. Please download sample for your confidential.

Table of Contents

Preface.

About the Authors.

Symbols.

1. Introduction.

1-1 Historical Notes.

1-2 Common HVAC Units and Dimensions.

1-3 Fundamental Physical Concepts.

1-4 Additional Comments.

References.

Problems.

2. Air-Conditioning Systems.

2-1 The Complete System.

2-2 System Selection and Arrangement.

2-3 HVAC Components and Distribution Systems.

2-4 Types of All-Air Systems.

2-5 Air-and-Water Systems.

2-6 All-Water Systems.

2-7 Decentralized Cooling and Heating.

2-8 Heat Pump Systems.

2-9 Heat Recovery Systems.

2-10 Thermal Energy Storage.

References.

Problems.

3. Moist Air Properties and Conditioning Processes.

3-1 Moist Air and the Standard Atmosphere.

3-2 Fundamental Parameters.

3-3 Adiabatic Saturation.

3-4 Wet Bulb Temperature and the Psychrometric Chart.

3-5 Classic Moist Air Processes.

3-6 Space Air Conditioning—Design Conditions.

3-7 Space Air Conditioning—Off-Design Conditions.

References.

Problems.

4. Comfort and Health—Indoor Environmental Quality.

4-1 Comfort—Physiological Considerations.

4-2 Environmental Comfort Indices.

4-3 Comfort Conditions.

4-4 The Basic Concerns of IAQ.

4-5 Common Contaminants.

4-6 Methods to Control Humidity.

4-7 Methods to Control Contaminants.

References.

Problems.

5. Heat Transmission in Building Structures.

5-1 Basic Heat-Transfer Modes.

5-2 Tabulated Overall Heat-Transfer Coefficients.

5-3 Moisture Transmission.

References.

Problems.

6. Space Heating Load.

6-1 Outdoor Design Conditions.

6-2 Indoor Design Conditions.

6-3 Transmission Heat Losses.

6-4 Infiltration.

6-5 Heat Losses from Air Ducts.

6-6 Auxiliary Heat Sources.

6-7 Intermittently Heated Structures.

6-8 Supply Air For Space Heating.

6-9 Source Media for Space Heating.

6-10 Computer Calculation of Heating Loads.

References.

Problems.

7. Solar Radiation.

7-1 Thermal Radiation.

7-2 The Earth’s Motion About the Sun.

7-3 Time.

7-4 Solar Angles.

7-5 Solar Irradiation.

7-6 Heat Gain Through Fenestrations.

7-7 Energy Calculations.

References.

Problems.

8. The Cooling Load.

8-1 Heat Gain, Cooling Load, and Heat Extraction Rate.

8-2 Application of Cooling Load Calculation Procedures.

8-3 Design Conditions.

8-4 Internal Heat Gains.

8-5 Overview of the Heat Balance Method.

8-6 Transient Conduction Heat Transfer.

8-7 Outside Surface Heat Balance—Opaque Surfaces.

8-8 Fenestration—Transmitted Solar Radiation.

8-9 Interior Surface Heat Balance—Opaque Surfaces.

8-10 Surface Heat Balance—Transparent Surfaces.

8-11 Zone Air Heat Balance.

8-12 Implementation of the Heat Balance Method.

8-13 Radiant Time Series Method.

8-14 Implementation of the Radiant Time Series Method.

8-15 Supply Air Quantities.

References.

Problems.

9. Energy Calculations and Building Simulation.

9-1 Degree-Day Procedure.

9-2 Bin Method.

9-3 Comprehensive Simulation Methods.

9-4 Energy Calculation Tools.

9-5 Other Aspects of Building Simulation.

References.

Problems.

10. Flow, Pumps, and Piping Design.

10-1 Fluid Flow Basics.

10-2 Centrifugal Pumps.

10-3 Combined System and Pump Characteristics.

10-4 Piping System Fundamentals.

10-5 System Design.

10-6 Steam Heating Systems.

References.

Problems.

11. Space Air Diffusion.

11-1 Behavior of Jets.

11-2 Air-Distribution System Design.

References.

Problems.

12. Fans and Building Air Distribution.

12-1 Fans.

12-2 Fan Relations.

12-3 Fan Performance and Selection.

12-4 Fan Installation.

12-5 Field Performance Testing.

12-6 Fans and Variable-Air-Volume Systems.

12-7 Air Flow in Ducts.

12-8 Air Flow in Fittings.

12-9 Accessories.

12-10 Duct Design—General.

12-11 Duct Design—Sizing.

References.

Problems.

13. Direct Contact Heat and Mass Transfer.

13-1 Combined Heat and Mass Transfer.

13-2 Spray Chambers.

13-3 Cooling Towers.

References.

Problems.

14. Extended Surface Heat Exchangers.

14-1 The Log Mean Temperature Deficiency (LMTD) Method.

14-2 The Number of Transfer Units (NTU) Method.

14-3 Heat Transfer–Single-Component Fluids.

14-4 Transport Coefficients Inside Tubes.

14-5 Transport Coefficients Outside Tubes and Compact Surfaces.

14-6 Design Procedures for Sensible Heat Transfer.

14-7 Combined Heat and Mass Transfer.

References.

Problems.

15. Refrigeration.

15-1 The Performance of Refrigeration Systems.

15-2 The Theoretical Single-Stage Compression Cycle.

15-3 Refrigerants.

15-4 Refrigeration Equipment Components.

15-5 The Real Single-Stage Cycle.

15-6 Absorption Refrigeration.

15-7 The Theoretical Absorption Refrigeration System.

15-8 The Aqua–Ammonia Absorption System.

15-9 The Lithium Bromide–Water System.