ASHRAE ACSystemDesignManual 3ed 2020 2019
$64.46
Air-Conditioning System Design Manual, 3rd Edition
Published By | Publication Date | Number of Pages |
ASHRAE | 2019 | 316 |
Offering real-world applications in addition to theoretical calculations and analytical procedures, Air-Conditioning System Design Manual, Third Edition, bridges the gap between theory and practice in the design of HVAC&R systems. It has been completely revised and updated to reflect current industry best practices. Organized into 13 chapters covering the design process, load calculations, systems components, and various types of HVAC&R systems, this manual is beneficial to both the entry-level designer and the experienced HVAC professional. New material on commissioning and testing, adjusting, and balancing (TAB); decentralized HVAC applications and central cooling and heating plants; and a designer’s business plan has been added. In addition, significant updates and enhancements have been made to chapters on health, wellness, and safety; components; and special HVAC&R systems. Citation: ASHRAE Book
PDF Catalog
PDF Pages | PDF Title |
---|---|
6 | CONTENTS |
10 | PREFACE |
12 | ACKNOWLEDGMENTS |
14 | 1.1 PURPOSE OF THIS MANUAL |
16 | 1.2 HOW BEST TO USE THIS MANUAL |
17 | 1.3 UNITS 1.5 GENERAL BIBLIOGRAPHY |
20 | 2.1 INTRODUCTION |
21 | 2.2 MAKING A PROFIT |
25 | 2.3 PROJECT DELIVERY |
29 | 2.4 BIBLIOGRAPHY |
30 | 3.1 DESIGN PROCESS CONTEXT |
32 | 3.2 DESIGN VERSUS ANALYSIS 3.3 DESIGN PHASES AND PROJECT DELIVERY |
43 | 3.4 INTERACTION BETWEEN HVAC&R AND OTHER BUILDING SYSTEMS |
57 | 3.6 COMPUTERS AND HVAC&R DESIGN |
60 | 3.8 ECONOMIC CONSIDERATIONS |
64 | 3.9 REFERENCES |
65 | 3.10 BIBLIOGRAPHY |
66 | 4.1 CONTEXT |
83 | 4.6 HVAC SECURITY |
84 | 4.7 REFERENCES |
86 | 4.8 BIBLIOGRAPHY |
88 | 5.1 CONTEXT |
90 | 5.2 DEFINITIONS |
91 | 5.3 OUTDOOR AND INDOOR DESIGN CONDITIONS 5.4 EXTERNAL LOADS |
92 | 5.5 INTERNAL LOADS |
95 | 5.6 CALCULATION METHODS |
96 | 5.7 COMPUTER INPUTS AND OUTPUTS |
99 | 5.8 EFFECTS OF ALTITUDE |
100 | 5.9 REFERENCES |
101 | 5.10 BIBLIOGRAPHY |
102 | 6.1 CONTEXT |
103 | 6.2 DECENTRALIZED COOLING AND HEATING |
106 | 6.3 CENTRALIZED COOLING AND HEATING |
109 | 6.4 REFERENCES |
110 | 6.5 BIBLIOGRAPHY |
112 | 7.1 CONTEXT |
113 | 7.2 HEATING SOURCE EQUIPMENT |
123 | 7.3 HEAT TRANSFER EQUIPMENT |
125 | 7.4 COOLING SOURCE EQUIPMENT |
139 | 7.5 PUMPS |
145 | 7.6 VALVES |
149 | 7.7 PIPING |
153 | 7.8 FANS 7.9 FILTERS |
154 | 7.10 DAMPERS 7.11 DUCTWORK |
158 | 7.12 REFERENCES |
159 | 7.13 BIBLIOGRAPHY |
162 | 8.1 CONTEXT 8.2 INTRODUCTION |
163 | 8.3 ADVANTAGES AND DISADVANTAGES OF ALL-AIR SYSTEMS |
165 | 8.4 SYSTEM CONCEPTS AND BASIC PSYCHROMETRICS |
167 | 8.5 SPECIAL DESIGN CONSIDERATIONS |
169 | 8.6 USEFUL EQUATIONS FOR AIR-SIDE SYSTEM DESIGN |
174 | 8.7 SINGLE-ZONE ALL-AIR SYSTEMS |
175 | 8.8 VARIABLE-AIR-VOLUME (VAV) SYSTEMS |
187 | 8.9 REHEAT SYSTEMS |
190 | 8.10 DUAL-DUCT SYSTEMS |
198 | 8.11 MULTIZONE SYSTEMS |
200 | 8.12 SIMPLE ROOFTOP SYSTEMS |
201 | 8.13 REFERENCES |
202 | 8.14 BIBLIOGRAPHY |
204 | 9.1 CONTEXT 9.2 INTRODUCTION |
205 | 9.3 ADVANTAGES AND DISADVANTAGES OF AIR-WATER SYSTEMS 9.4 SYSTEM CONCEPTS AND BASIC PSYCHROMETRICS |
209 | 9.5 WATER-SIDE SYSTEMS |
218 | 9.6 REFRIGERATION LOAD |
220 | 9.7 ELECTRIC HEAT OPTION 9.8 REFERENCES 9.9 BIBLIOGRAPHY |
222 | 10.1 CONTEXT 10.2 INTRODUCTION |
223 | 10.3 APPLICATIONS |
225 | 10.4 SYSTEM CONCEPTS |
226 | 10.5 TWO-PIPE SYSTEMS |
227 | 10.6 FOUR-PIPE SYSTEMS 10.7 PIPING DESIGN CONSIDERATIONS |
230 | 10.8 VARIABLE-SPEED PUMP OPERATION |
234 | 10.9 TERMINALS |
237 | 10.10 VENTILATION |
238 | 10.11 DESIGN SEQUENCE |
241 | 10.12 REFERENCES |
242 | 10.13 BIBLIOGRAPHY |
244 | 11.1 CONTEXT |
245 | 11.2 INTRODUCTION |
246 | 11.3 AIR-TO-AIR HEAT EXCHANGERS |
247 | 11.4 AIR-SIDE AND WATER-SIDE ECONOMIZERS |
249 | 11.5 HVAC SYSTEMS ENERGY RETROFITS |
256 | 11.6 RETROFITTING CONSTANT-SPEED EQUIPMENT TO VARIABLE-SPEED EQUIPMENT |
257 | 11.7 UNDERFLOOR AIR-DISTRIBUTION SYSTEMS |
258 | 11.8 GROUND-SOURCE HEAT PUMP SYSTEMS |
259 | 11.9 VARIABLE REFRIGERANT FLOW SYSTEMS |
263 | 11.10 HUMIDIFIERS |
264 | 11.11 DEHUMIDIFICATION |
269 | 11.12 THERMAL ENERGY STORAGE |
270 | 11.13 COLD AIR SUPPLY SYSTEM |
272 | 11.14 DOUBLE-BUNDLE SYSTEMS |
274 | 11.15 GREEN HVAC&R SYSTEMS AND CO2 DESIGN |
275 | 11.16 REFERENCES |
276 | 11.17 BIBLIOGRAPHY |
278 | 12.1 CONTEXT 12.2 INTRODUCTION |
279 | 12.3 TERMINOLOGY |
281 | 12.4 CONTROL TYPES |
284 | 12.5 CYBERSECURITY |
285 | 12.6 CONTROL VALVES |
286 | 12.7 DAMPERS |
288 | 12.8 CONTROL STRATEGIES |
290 | 12.9 COMPONENTS |
291 | 12.10 REFERENCES 12.11 BIBLIOGRAPHY |
292 | 13.1 INTRODUCTION 13.2 COMMISSIONING |
294 | 13.3 Cx IN THE DESIGN PHASE |
295 | 13.4 Cx IN THE CONSTRUCTION PHASE |
296 | 13.5 RECOMMISSIONING |
297 | 13.6 ENERGY RETROCOMMISSIONING 13.7 BUILDING EXTERIOR COMMISSIONING |
299 | 13.8 TESTING, ADJUSTING, AND BALANCING (TAB) |
300 | 13.9 TAB PROCEDURES FOR AIR SYSTEMS |
301 | 13.10 TAB PROCEDURES FOR WATER SYSTEMS |
302 | 13.11 TAB PROCEDURES FOR EXISTING CONDITIONS |
303 | 13.12 REFERENCES 13.13 BIBLIOGRAPHY |
306 | INDEX |