EBOOK - Heating, Ventilating and Air Conditioning - Analysis and Design Sixth Edition (McQuiston & Các TG)

 

EBOOK - Hệ thống nhiệt lạnh, thông gió và điều hòa không khí - Phân tích và thiết kế  (McQuiston & Các TG) - 641 Trang.

The first edition of this text was published more than 25 years ago. At the time, even handheld computers were primitive. Since that time great advances have occurred not only with the computer but procedures for carrying out the various design phases of heating and air conditioning system design have vastly improved, along with specialized control systems and equipment.
However, the basic laws of nature and the fundamentals related to system design, on which this book is based, have not changed. The original objectives of this text to provide an up-to-date, convenient classroom teaching aid have not changed. It is thought that mastery of material presented herein will enable young engineers to develop and produce system design beyond the scope of this book.
The text is intended for undergraduate and graduate engineering students who have completed basic courses in thermodynamics, heat transfer, fluid mechanics, and dynamics. It contains sufficient material for two-semester courses with latitude in course make-up. Although primarily directed toward classroom teaching, it should also be useful for continuing education and as a reference.

CONTENTS:

1. Introduction 1

1-1 Historical Notes 1

1-2 Common HVAC Units and Dimensions 3

1-3 Fundamental Physical Concepts 6

1-4 Additional Comments 18

References 18

Problems 19

2. Air-Conditioning Systems 22

2-1 The Complete System 22

2-2 System Selection and Arrangement 26

2-3 HVAC Components and Distribution Systems 28

2-4 Types of All-Air Systems 29

2-5 Air-and-Water Systems 36

2-6 All-Water Systems 37

2-7 Decentralized Cooling and Heating 39

2-8 Heat Pump Systems 41

2-9 Heat Recovery Systems 44

2-10 Thermal Energy Storage 45

References 46

Problems 46

3. Moist Air Properties and Conditioning Processes 49

3-1 Moist Air and the Standard Atmosphere 49

3-2 Fundamental Parameters 51

3-3 Adiabatic Saturation 53

3-4 Wet Bulb Temperature and the Psychrometric Chart 55

3-5 Classic Moist Air Processes 56

3-6 Space Air Conditioning—Design Conditions 65

3-7 Space Air Conditioning—Off-Design Conditions 75

References 79

Problems 79

4. Comfort and Health—Indoor Environmental Quality 85

4-1 Comfort—Physiological Considerations 85

4-2 Environmental Comfort Indices 86

4-3 Comfort Conditions 89

4-4 The Basic Concerns of IAQ 92

4-5 Common Contaminants 93

4-6 Methods to Control Humidity 95

4-7 Methods to Control Contaminants 98

References 115

Problems 116

5. Heat Transmission in Building Structures 119

5-1 Basic Heat-Transfer Modes 119

5-2 Tabulated Overall Heat-Transfer Coefficients 138

5-3 Moisture Transmission 153

References 154

Problems 154

6. Space Heating Load 158

6-1 Outdoor Design Conditions 158

6-2 Indoor Design Conditions 159

6-3 Transmission Heat Losses 160

6-4 Infiltration 160

6-5 Heat Losses from Air Ducts 173

6-6 Auxiliary Heat Sources 175

6-7 Intermittently Heated Structures 175

6-8 Supply Air For Space Heating 175

6-9 Source Media for Space Heating 176

6-10 Computer Calculation of Heating Loads 177

References 178

Problems 179

7. Solar Radiation 181

7-1 Thermal Radiation 181

7-2 The Earth’s Motion About the Sun 184

7-3 Time 185

7-4 Solar Angles 187

7-5 Solar Irradiation 190

7-6 Heat Gain Through Fenestrations 197

7-7 Energy Calculations 212

References 213

Problems 213

8. The Cooling Load 216

8-1 Heat Gain, Cooling Load, and Heat Extraction Rate 216

8-2 Application of Cooling Load Calculation Procedures 219

8-3 Design Conditions 220

8-4 Internal Heat Gains 221

8-5 Overview of the Heat Balance Method 226

8-6 Transient Conduction Heat Transfer 228

8-7 Outside Surface Heat Balance—Opaque Surfaces 231

8-8 Fenestration—Transmitted Solar Radiation 237

8-9 Interior Surface Heat Balance—Opaque Surfaces 240

8-10 Surface Heat Balance—Transparent Surfaces 246

8-11 Zone Air Heat Balance 249

8-12 Implementation of the Heat Balance Method 254

8-13 Radiant Time Series Method 255

8-14 Implementation of the Radiant Time Series Method 266

8-15 Supply Air Quantities 273

References 273

Problems 275

9. Energy Calculations and Building Simulation 279

9-1 Degree-Day Procedure 279

9-2 Bin Method 282

9-3 Comprehensive Simulation Methods 289

9-4 Energy Calculation Tools 293

9-5 Other Aspects of Building Simulation 294

References 295

Problems 297

10. Flow, Pumps, and Piping Design 299

10-1 Fluid Flow Basics 299

10-2 Centrifugal Pumps 310

10-3 Combined System and Pump Characteristics 314

10-4 Piping System Fundamentals 317

10-5 System Design 335

10-6 Steam Heating Systems 343

References 358

Problems 359

11. Space Air Diffusion 366

11-1 Behavior of Jets 366

11-2 Air-Distribution System Design 374

References 391

Problems 391

12. Fans and Building Air Distribution 394

12-1 Fans 394

12-2 Fan Relations 394

12-3 Fan Performance and Selection 399

12-4 Fan Installation 407

12-5 Field Performance Testing 414

12-6 Fans and Variable-Air-Volume Systems 416

12-7 Air Flow in Ducts 418

12-8 Air Flow in Fittings 425

12-9 Accessories 437

12-10 Duct Design—General  439

12-11 Duct Design—Sizing 444

References 454

Problems 454

13. Direct Contact Heat and Mass Transfer 461

13-1 Combined Heat and Mass Transfer 461

13-2 Spray Chambers 464

13-3 Cooling Towers 472

References 479

Problems 479

14. Extended Surface Heat Exchangers 482

14-1 The Log Mean Temperature Deficiency (LMTD) Method 483

14-2 The Number of Transfer Units (NTU) Method 484

14-3 Heat Transfer–Single-Component Fluids 485

14-4 Transport Coefficients Inside Tubes 492

14-5 Transport Coefficients Outside Tubes and Compact Surfaces 496

14-6 Design Procedures for Sensible Heat Transfer 504

14-7 Combined Heat and Mass Transfer 513

References 524

Problems 525

15. Refrigeration 529

15-1 The Performance of Refrigeration Systems 529

15-2 The Theoretical Single-Stage Compression Cycle 531

15-3 Refrigerants 534

15-4 Refrigeration Equipment Components 540

15-5 The Real Single-Stage Cycle 553

15-6 Absorption Refrigeration 560

15-7 The Theoretical Absorption Refrigeration System 570

15-8 The Aqua–Ammonia Absorption System 572

15-9 The Lithium Bromide–Water System 576

THÔNG BÁO: 

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EBOOK - Hệ thống nhiệt lạnh, thông gió và điều hòa không khí - Phân tích và thiết kế  (McQuiston & Các TG) - 641 Trang.

The first edition of this text was published more than 25 years ago. At the time, even handheld computers were primitive. Since that time great advances have occurred not only with the computer but procedures for carrying out the various design phases of heating and air conditioning system design have vastly improved, along with specialized control systems and equipment.
However, the basic laws of nature and the fundamentals related to system design, on which this book is based, have not changed. The original objectives of this text to provide an up-to-date, convenient classroom teaching aid have not changed. It is thought that mastery of material presented herein will enable young engineers to develop and produce system design beyond the scope of this book.
The text is intended for undergraduate and graduate engineering students who have completed basic courses in thermodynamics, heat transfer, fluid mechanics, and dynamics. It contains sufficient material for two-semester courses with latitude in course make-up. Although primarily directed toward classroom teaching, it should also be useful for continuing education and as a reference.

CONTENTS:

1. Introduction 1

1-1 Historical Notes 1

1-2 Common HVAC Units and Dimensions 3

1-3 Fundamental Physical Concepts 6

1-4 Additional Comments 18

References 18

Problems 19

2. Air-Conditioning Systems 22

2-1 The Complete System 22

2-2 System Selection and Arrangement 26

2-3 HVAC Components and Distribution Systems 28

2-4 Types of All-Air Systems 29

2-5 Air-and-Water Systems 36

2-6 All-Water Systems 37

2-7 Decentralized Cooling and Heating 39

2-8 Heat Pump Systems 41

2-9 Heat Recovery Systems 44

2-10 Thermal Energy Storage 45

References 46

Problems 46

3. Moist Air Properties and Conditioning Processes 49

3-1 Moist Air and the Standard Atmosphere 49

3-2 Fundamental Parameters 51

3-3 Adiabatic Saturation 53

3-4 Wet Bulb Temperature and the Psychrometric Chart 55

3-5 Classic Moist Air Processes 56

3-6 Space Air Conditioning—Design Conditions 65

3-7 Space Air Conditioning—Off-Design Conditions 75

References 79

Problems 79

4. Comfort and Health—Indoor Environmental Quality 85

4-1 Comfort—Physiological Considerations 85

4-2 Environmental Comfort Indices 86

4-3 Comfort Conditions 89

4-4 The Basic Concerns of IAQ 92

4-5 Common Contaminants 93

4-6 Methods to Control Humidity 95

4-7 Methods to Control Contaminants 98

References 115

Problems 116

5. Heat Transmission in Building Structures 119

5-1 Basic Heat-Transfer Modes 119

5-2 Tabulated Overall Heat-Transfer Coefficients 138

5-3 Moisture Transmission 153

References 154

Problems 154

6. Space Heating Load 158

6-1 Outdoor Design Conditions 158

6-2 Indoor Design Conditions 159

6-3 Transmission Heat Losses 160

6-4 Infiltration 160

6-5 Heat Losses from Air Ducts 173

6-6 Auxiliary Heat Sources 175

6-7 Intermittently Heated Structures 175

6-8 Supply Air For Space Heating 175

6-9 Source Media for Space Heating 176

6-10 Computer Calculation of Heating Loads 177

References 178

Problems 179

7. Solar Radiation 181

7-1 Thermal Radiation 181

7-2 The Earth’s Motion About the Sun 184

7-3 Time 185

7-4 Solar Angles 187

7-5 Solar Irradiation 190

7-6 Heat Gain Through Fenestrations 197

7-7 Energy Calculations 212

References 213

Problems 213

8. The Cooling Load 216

8-1 Heat Gain, Cooling Load, and Heat Extraction Rate 216

8-2 Application of Cooling Load Calculation Procedures 219

8-3 Design Conditions 220

8-4 Internal Heat Gains 221

8-5 Overview of the Heat Balance Method 226

8-6 Transient Conduction Heat Transfer 228

8-7 Outside Surface Heat Balance—Opaque Surfaces 231

8-8 Fenestration—Transmitted Solar Radiation 237

8-9 Interior Surface Heat Balance—Opaque Surfaces 240

8-10 Surface Heat Balance—Transparent Surfaces 246

8-11 Zone Air Heat Balance 249

8-12 Implementation of the Heat Balance Method 254

8-13 Radiant Time Series Method 255

8-14 Implementation of the Radiant Time Series Method 266

8-15 Supply Air Quantities 273

References 273

Problems 275

9. Energy Calculations and Building Simulation 279

9-1 Degree-Day Procedure 279

9-2 Bin Method 282

9-3 Comprehensive Simulation Methods 289

9-4 Energy Calculation Tools 293

9-5 Other Aspects of Building Simulation 294

References 295

Problems 297

10. Flow, Pumps, and Piping Design 299

10-1 Fluid Flow Basics 299

10-2 Centrifugal Pumps 310

10-3 Combined System and Pump Characteristics 314

10-4 Piping System Fundamentals 317

10-5 System Design 335

10-6 Steam Heating Systems 343

References 358

Problems 359

11. Space Air Diffusion 366

11-1 Behavior of Jets 366

11-2 Air-Distribution System Design 374

References 391

Problems 391

12. Fans and Building Air Distribution 394

12-1 Fans 394

12-2 Fan Relations 394

12-3 Fan Performance and Selection 399

12-4 Fan Installation 407

12-5 Field Performance Testing 414

12-6 Fans and Variable-Air-Volume Systems 416

12-7 Air Flow in Ducts 418

12-8 Air Flow in Fittings 425

12-9 Accessories 437

12-10 Duct Design—General  439

12-11 Duct Design—Sizing 444

References 454

Problems 454

13. Direct Contact Heat and Mass Transfer 461

13-1 Combined Heat and Mass Transfer 461

13-2 Spray Chambers 464

13-3 Cooling Towers 472

References 479

Problems 479

14. Extended Surface Heat Exchangers 482

14-1 The Log Mean Temperature Deficiency (LMTD) Method 483

14-2 The Number of Transfer Units (NTU) Method 484

14-3 Heat Transfer–Single-Component Fluids 485

14-4 Transport Coefficients Inside Tubes 492

14-5 Transport Coefficients Outside Tubes and Compact Surfaces 496

14-6 Design Procedures for Sensible Heat Transfer 504

14-7 Combined Heat and Mass Transfer 513

References 524

Problems 525

15. Refrigeration 529

15-1 The Performance of Refrigeration Systems 529

15-2 The Theoretical Single-Stage Compression Cycle 531

15-3 Refrigerants 534

15-4 Refrigeration Equipment Components 540

15-5 The Real Single-Stage Cycle 553

15-6 Absorption Refrigeration 560

15-7 The Theoretical Absorption Refrigeration System 570

15-8 The Aqua–Ammonia Absorption System 572

15-9 The Lithium Bromide–Water System 576

THÔNG BÁO: 

Tài liệu này đã được thông báo cho Admin về vấn đề nghiêm cấm chia sẻ do vi phạm bản quyền, hiện tại link download đã được gỡ bỏ. Các bạn thực sự có nhu cầu tham khảo nên mua sách bản quyền với giá rẻ nhất theo link bên dưới.

NOTIFICATION:


This document has been reported to Admin about the prohibition of sharing due to copyright infringement, the download link has now been removed. You really need to consult should buy copyright books with the cheapest price according to the link below.

LINK BUY EBOOK ONLINE

Chuyên mục: C. Bài giảng C. Bài giảng chuyên ngành Nhiệt Lạnh (Heat and Refrigeration) C. Bài giảng kỹ thuật