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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, Complete (ALL CHAPTERS) Solution Manual


Faye C. McQuiston · Jeffrey D. Spitler · Jerald D. Parker

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

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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

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Table of Contents


About the Authors.


1. Introduction.

1-1 Historical Notes.

1-2 Common HVAC Units and Dimensions.

1-3 Fundamental Physical Concepts.

1-4 Additional Comments.



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.



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.



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.



5. Heat Transmission in Building Structures.

5-1 Basic Heat-Transfer Modes.

5-2 Tabulated Overall Heat-Transfer Coefficients.

5-3 Moisture Transmission.



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.



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.



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.



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.



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.



11. Space Air Diffusion.

11-1 Behavior of Jets.

11-2 Air-Distribution System Design.



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.



13. Direct Contact Heat and Mass Transfer.

13-1 Combined Heat and Mass Transfer.

13-2 Spray Chambers.

13-3 Cooling Towers.



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.



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.