Name: ASHRAE Refrigeration Handbook SI 2022 PDF - PDF Standards Store
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The 2022 ASHRAEHandbook—Refrigeration covers the refrigeration equipment and systems forapplications other than human comfort. This volume includes data and guidanceon cooling, freezing, and storing food; industrial and medical applications ofrefrigeration; and low-temperature refrigeration.

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PDF Pages	PDF Title
1	SI_R22 FrontCover_Download
2	SI_R22 FrontMatter
3	Dedicated To The Advancement Of The Profession And Its Allied Industries DISCLAIMER
9	Blank Page
10	SI_R22_Ch01 1. Application
11	2. System Safety 3. Basic Piping Principles Refrigerant Line Velocities Refrigerant Flow Rates
12	4. Refrigerant Line Sizing Pressure Drop Considerations
14	Location and Arrangement of Piping Protection Against Damage to Piping Piping Insulation Vibration and Noise in Piping
25	Refrigerant Line Capacity Tables Equivalent Lengths of Valves and Fittings
26	Oil Management in Refrigerant Lines
29	5. Piping at Multiple Compressors Suction Piping
30	Discharge Piping Interconnecting Crankcases
31	6. Piping at Various System Components Flooded Fluid Coolers Refrigerant Feed Devices Direct-Expansion Fluid Chillers
32	Direct-Expansion Air Coils
33	Flooded Evaporators 7. Discharge (Hot-Gas) Lines
36	8. Defrost Gas Supply Lines 9. Heat Exchangers and Vessels Receivers
38	Air-Cooled Condensers 10. Refrigeration Accessories Liquid-Suction Heat Exchangers
39	Two-Stage Subcoolers
40	Discharge Line Oil Separators
41	Surge Drums or Accumulators Compressor Floodback Protection Refrigerant Driers and Moisture Indicators
42	Strainers Liquid Indicators Oil Receivers Purge Units 11. Pressure Control for Refrigerant Condensers Water-Cooled Condensers Condenser-Water-Regulating Valves Water Bypass Evaporative Condensers
43	Air-Cooled Condensers Microchannel Condensers
44	12. Keeping Liquid from Crankcase During Off Cycles Automatic Pumpdown Control (Direct-Expansion Air-Cooling Systems) Crankcase Oil Heater (Direct-Expansion Systems) Control for Direct-Expansion Water Chillers Effect of Short Operating Cycle 13. Hot-Gas Bypass Arrangements Full (100%) Unloading for Starting Full (100%) Unloading for Capacity Control
45	14. Minimizing Refrigerant Charge in Commercial Systems
46	15. Refrigerant Retrofitting 16. Temperature Glide
47	References
48	SI_R22_Ch02 History of Ammonia Refrigeration Ammonia Refrigerant for HVAC Systems 1. Equipment 1.1 Compressors
49	Reciprocating Compressors
50	Rotary Vane, Low-Stage Compressors
51	Screw Compressors
52	1.2 Condensers
53	Condenser and Receiver Piping Evaporative Condensers
56	1.3 Evaporators
57	1.4 Evaporator Piping Unit Cooler: Flooded Operation
58	High-Side Float Control Low-Side Float Control 1.5 Vessels
61	1.6 Piping Recommended Material
62	Fittings Pipe Joints Pipe Location Pipe Sizing 1.7 Controls Liquid Feed Control
63	Controlling Load During Pulldown
64	Operation at Varying Loads and Temperatures
65	Electronic Control Lubricant Management Valves
66	Isolated Line Sections Insulation and Vapor Retarders 2. Systems 2.1 Single-Stage Systems 2.2 Economized Systems
67	2.3 Multistage Systems Two-Stage Screw Compressor System Converting Single-Stage into Two-Stage Systems
68	2.4 Liquid Recirculation Systems
69	Hot-Gas Defrost
72	Double-Riser Designs for Large Evaporator Coils
73	2.5 Safety Considerations Avoiding Hydraulic Shock
74	Hazards Related to System Cleanliness
75	References Bibliography
76	SI_R22_Ch03 1. History
77	2. System Design Transcritical CO2 Refrigeration
78	CO2 Cascade System
79	CO2/HFC Cascade Systems Ammonia/CO2 Cascade Refrigeration System
80	System Design Pressures
81	Valves
82	CO2 Monitoring Water in CO2 Systems 3. System Safety
83	4. Piping Carbon Dioxide Piping Materials Carbon Steel Piping for CO2 Pipe Sizing 5. Heat Exchangers and Vessels Gravity Liquid Separator
84	Recirculator
85	Cascade Heat Exchanger 6. Compressors for CO2 Refrigeration Systems Transcritical Compressors for Commercial Refrigeration
87	Compressors for Industrial Applications 7. Lubricants 8. Evaporators
88	9. Defrost Electric Defrost Hot-Gas Defrost Reverse-Cycle Defrost
89	High Pressure Liquid Defrost Water Defrost 10. Installation, Start-up, and Commissioning References
90	Bibliography Acknowledgment
91	Blank Page
92	SI_R22_Ch04 Terminology Advantages and Disadvantages
93	1. Overfeed System Operation Mechanical Pump Gas Pump
94	2. Refrigerant Distribution 3. Oil in System
95	4. Circulating Rate 5. Pump Selection and Installation Types of Pumps
96	Installing and Connecting Mechanical Pumps
97	6. Controls 7. Evaporator Design Considerations Top Feed Versus Bottom Feed
98	8. Refrigerant Charge 9. Start-Up and Operation Operating Costs and Efficiency 10. Line Sizing
99	11. Low-Pressure Receiver Sizing
100	References
101	Bibliography
102	SI_R22_Ch05 1. Refrigeration System 2. Components
103	3. Selecting Design Balance Points
104	4. Energy and Mass Balances
105	5. System Performance
106	SI_R22_Ch06 1. Refrigerants Refrigerant Standards 2. Lubricants Mineral Oils
107	Alkylbenzenes (ABs) Polyol Esters (POEs)
108	Polyalkylene Glycols (PAGs) Polyalphaolefins Polyvinyl Ethers (PVEs)
109	3. System Reactions Thermal Stability
111	Hydrolysis of Halogenated Refrigerants and Polyol Ester Lubricants
112	Oxidation of Oils Effects of Lubricant Additives
113	Copper Plating Corrosion Effects of Unsaturated Contaminants on HFC or HFO Refrigerants and Lubricants
114	4. Compatibility of Materials Process Chemicals Brazing Fluxes Electrical and Ground Insulation
115	Magnet Wire Insulation Varnishes
116	Elastomers Plastics Desiccants Material Compatibility Involving HFO Refrigerants
118	Material Compatibility Involving Refrigerant Blends
119	5. Chemical Evaluation Techniques Sealed-Tube or Pressure Vessel Material Tests Component Tests System Tests References
122	Bibliography
124	SI_R22_Ch07 1. Moisture Sources of Moisture Effects of Moisture
125	Drying Methods
126	Moisture Indicators Moisture Measurement Desiccants
128	Desiccant Applications
129	Driers Drier Selection 2. Other Contaminants Metallic Contaminants and Dirt
130	Organic Contaminants: Sludge, Wax, and Tars Residual Cleaning Agents
131	Noncondensable Gases Motor Burnouts Field Assembly 3. System Cleanup Procedure After Hermetic Motor Burnout Procedure
132	Special System Characteristics and Procedures 4. Contaminant Control During Retrofit
133	5. Chiller Decontamination 6. System Sampling
134	Testing and Rating References Standards Other Publications
135	Bibliography
136	SI_R22_Ch08 1. Dehydration (Moisture Removal) Sources of Moisture Dehydration by Heat, Vacuum, or Dry Air
137	Combination Methods
138	2. Moisture Measurement
139	3. Charging 4. Testing for Leaks Leak Detection Methods
140	Special Considerations 5. Performance Testing Compressor Testing
141	Testing Complete Systems
142	Testing of Components References Bibliography
143	Blank Page
144	SI_R22_Ch09 1. Emissions Types 2. Design 3. Installation 4. Servicing and Decommissioning
145	5. Training 6. Leak Detection Global Detection Local Detection Automated Performance Monitoring Systems
146	7. Recovery, Recycling, and Reclamation Installation and Service Practices Contaminants Recovery
147	Recycling
148	Equipment Standards Special Considerations and Equipment for Handling Multiple Refrigerants Reclamation
149	Purity Standards References Bibliography
150	SI_R22_Ch10 1. Design Considerations for Below- Ambient Refrigerant Piping 2. Insulation Properties at Below-Ambient Temperatures
151	3. Insulation System Moisture Resistance 4. Insulation Systems
152	Pipe Preparation for Corrosion Control
153	Insulation Materials
154	Insulation Joint Sealant/Adhesive Vapor Retarders
156	Weather Barrier Jacketing
157	5. Installation Guidelines
160	6. Maintenance of Insulation Systems References Bibliography
162	SI_R22_Ch11 1. Control Switches 1.1 Pressure Switches
163	1.2 Temperature Switches (Thermostats) 1.3 Differential Switches
164	1.4 Float Switches Operation and Selection Application
165	2. Control Sensors 2.1 Pressure Transducers 2.2 Thermistors 2.3 Resistance Temperature Detectors 2.4 Thermocouples 2.5 Liquid Level Sensors Operation and Selection
166	3. Control Valves 3.1 Thermostatic Expansion Valves Operation
167	Capacity
168	Thermostatic Charges
169	Type of Equalization Alternative Construction Types
170	Application
171	3.2 Electric Expansion Valves
172	4. Regulating and Throttling Valves
173	4.1 Evaporator-Pressure-Regulating Valves Operation
174	Selection Application
175	4.2 Constant-Pressure Expansion Valves Operation Selection Application 4.3 Suction-Pressure-Regulating Valves
176	Operation Selection Application 4.4 Condenser-Pressure- Regulating Valves Operation
177	Application 4.5 Discharge Bypass Valves Operation Selection
178	Application 4.6 High-Side Float Valves Operation Selection Application 4.7 Low-Side Float Valves Operation Selection Application
179	4.8 Solenoid Valves
180	Operation
181	Application
182	4.9 Condensing Water Regulators Two-Way Regulators Three-Way Regulators
183	4.10 Check Valves Seat Materials Applications 4.11 Relief Devices Safety Relief Valves
184	Functional Relief Valves Other Safety Relief Devices
185	5. Discharge-Line Lubricant Separators Selection Application 6. Capillary Tubes Theory
186	System Design Factors Capacity Balance Characteristic
187	Optimum Selection and Refrigerant Charge Application
188	6.1 Adiabatic Capillary Tube Selection Procedure
190	Sample Calculations 6.2 Capillary-Tube/Suction-Line Heat Exchanger Selection Procedure Capillary Tube Selection
191	Generalized Prediction Equations
192	Sample Calculations 7. Short-Tube Restrictors Application
193	Selection
194	References
195	Bibliography
196	SI_R22_Ch12 1. Tests for Boundary and Mixed Lubrication
197	2. Refrigeration Lubricant Requirements
198	3. Synthetic Lubricants Alkylbenzenes (ABs) Polyalkylene Glycols (PAGs)
199	Polyalphaolefins (PAOs) Polyol Esters (POE)
200	Polyvinyl Ethers (PVEs)
201	4. Mineral Oil Composition and Component Characteristics
202	Component Characteristics
203	Applications 5. Lubricant Additives 6. Lubricant Properties Viscosity and Viscosity Grades
204	Viscosity Index
205	Pressure/Viscosity Coefficient and Compressibility Factor Density
206	Relative Molecular Mass Pour Point Volatility: Flash and Fire Points Vapor Pressure
207	Aniline Point Solubility of Refrigerants in Oils 7. Lubricant/Refrigerant Solutions
208	Density
210	Thermodynamics and Transport Phenomena Pressure/Temperature/Solubility Relations
211	Mutual Solubility
212	Effects of Partial Miscibility in Refrigerant Systems Solubility Curves and Miscibility Diagrams Effect of Lubricant Type on Solubility and Miscibility
213	Effect of Refrigerant Type on Miscibility with Lubricants Solubilities and Viscosities of Lubricant/Refrigerant Solutions
214	8. Lubricant Influence on Lubricant Return
219	9. Lubricant Influence on System Performance
220	10. Wax Separation (Floc Tests)
221	11. Solubility of Hydrocarbon Gases
222	12. Lubricants for Carbon Dioxide
226	13. Solubility of Water in Lubricants 14. Solubility of Air in Lubricants
227	15. Foaming and Antifoam Agents 16. Oxidation Resistance
228	17. Chemical Stability Effect of Refrigerants and Lubricant Types 18. Retrofitting from CFC/HCFC to Other Refrigerants Choice of Refrigerant Lubricants Flushing
229	References
231	Bibliography
232	SI_R22_Ch13 1. Coolant Selection Load Versus Flow Rate Pumping Cost Performance Comparisons
233	Other Considerations 2. Design Considerations Piping and Control Valves Storage Tanks
234	Expansion Tanks
235	Pulldown Time
236	System Costs Corrosion Prevention 3. Applications
237	References
238	SI_R22_Ch14 1. Types of Forced-Circulation Air Coolers
239	2. Components Draw-Through and Blow-Through Airflow Fan Assemblies
240	Casing Coil Construction Frost Control Operational Controls 3. Air Movement and Distribution
241	4. Unit Ratings Refrigerant Velocity Frost Condition Defrosting
242	Basic Cooling Capacity
243	5. Installation and Operation 6. More Information References
244	SI_R22_Ch15
245	1. Display Refrigerators Product Temperatures
246	Effect of Store Ambient Conditions
248	Display Refrigerator Cooling Load
249	Refrigerator Construction
250	Cleaning and Sanitizing Equipment Merchandising Applications
253	2. Refrigerated Storage Rooms Meat Processing Rooms Wrapped Meat Storage
254	Walk-In Coolers and Freezers 3. Refrigeration Systems Remote Design Considerations
256	Typical Systems
262	4. Condensing Methods
263	Condenser Types
264	Noise
265	5. Methods of Defrost Multicompressor Refrigeration Systems
266	Secondary Refrigeration Systems Defrost Control Strategies
267	6. Sustainable Retail Refrigeration Environmental Considerations Minimizing Refrigerant Emissions
269	Reducing Energy Consumption
270	7. Liquid Subcooling Strategies
271	8. Heat Reclaim Strategies Space Heating
272	Water Heating 9. Supermarket Air-Conditioning Systems System Types Comfort Considerations
273	References Bibliography
274	SI_R22_Ch16 1. Refrigerated Cabinets Reach-In Cabinets
275	Open Display Cabinets Roll-In Cabinets Product Temperatures Typical Construction Specialty Applications
276	Refrigeration Systems 2. Food Freezers 3. Blast Chillers and Blast Freezers
277	4. Walk-In Coolers/Freezers Operating Temperatures Typical Construction Door Construction Walk-In Floors Refrigeration Systems Compressors
278	Evaporators Refrigeration Sizing Maintenance and Operation 5. Vending Machines Types of Refrigerated Vending Machines
279	Refrigeration Systems Cooling Load Components Sensitivity to Surroundings Maintenance and Operation 6. Ice Machines Typical Operation and Construction
280	Refrigeration Systems Maintenance and Operations 7. Preparation Tables Product Temperatures Typical Construction Energy Efficiency Opportunities
281	References Bibliography
282	SI_R22_Ch17 1. Primary Functions Food Preservation
283	Factors Affecting Produce Preservation Special-Purpose Compartments and Features Ice and Water Service 2. Cabinets
284	Use of Space Thermal Loads Insulation
285	Structure and Materials
286	Moisture Sealing Door Latching and Entrapment Cabinet Testing 3. Refrigerating Systems Refrigerating Circuit
287	Defrosting Evaporator
288	Condenser Fans Capillary Tube
289	Compressor
290	Variable-Speed Compressors Linear Compressors Temperature Control System System Design and Balance
291	Processing and Assembly Procedures 4. Performance and Evaluation Environmental Test Rooms Standard Performance Test Procedures
293	Special Performance Testing Materials Testing Component Life Testing Field Testing 5. Safety Requirements 6. Durability and Service
294	References Bibliography
295	Blank Page
296	SI_R22_Ch18 Equipment Classifications 1. Water/Lithium Bromide Absorption Equipment 1.1 Components and Terminology
298	1.2 Equipment Types Single-Effect Lithium Bromide Chillers
300	Double-Effect Chillers
301	Single-Effect Heat Pump
303	Two-Stage, Double-Effect/Double-Lift Chillers/Heat Pumps
305	Single-Effect Heat Transformers 1.3 Chiller and Heat Pump Operation Operational Limits
306	Operational Controls Limit and Safety Controls
307	1.4 Machine Setup and Maintenance 2. Ammonia/Water Absorption Equipment 2.1 Residential Chillers and Components
308	Components
309	Equipment Performance and Selection 2.2 Domestic Absorption Refrigerators and Controls
310	2.3 Industrial Absorption Refrigeration Units 3. Special Applications and Emerging Products 3.1 Combination Systems: Power Production with Waste-Heat-Activated Absorption Cooling 3.2 Triple-Effect Cycles
311	3.3 Generator-Absorber Heat Exchange (GAX) Cycle 3.4 Solid/Vapor Sorption Systems 3.5 Liquid Desiccant/Absorption Systems 4. Information Sources References
312	Bibliography
314	SI_R22_Ch19 1. Thermal Properties of Food Constituents 2. Thermal Properties of Foods
315	3. Water Content 4. Initial Freezing Point 5. Ice Fraction
319	6. Density
320	7. Specific Heat Unfrozen Food Frozen Food
321	8. Enthalpy Unfrozen Food Frozen Foods
323	9. Thermal Conductivity
330	10. Thermal Diffusivity 11. Heat of Respiration
332	12. Transpiration of Fresh Fruits and Vegetables
338	13. Surface Heat Transfer Coefficient Evaluation of Thermophysical Property Models
341	14. Symbols References
344	Bibliography
346	SI_R22_Ch20 1. Thermodynamics of Cooling and Freezing 2. Cooling Times of Foods and Beverages Cooling Time Estimation Methods Based on f and j Factors
347	Determination of f and j Factors for Slabs, Cylinders, and Spheres
348	Determination of f and j Factors for Irregular Shapes
349	Cooling Time Estimation Methods Based on Equivalent Heat Transfer Dimensionality
350	Algorithms for Estimating Cooling Time 3. Sample Problems for Estimating Cooling Time
352	4. Freezing Times of Foods and Beverages Plank’s Equation Modifications to Plank’s Equation
354	Precooling, Phase Change, and Subcooling Time Calculations
355	Geometric Considerations
357	Evaluation of Freezing Time Estimation Methods Algorithms for Freezing Time Estimation
358	5. Sample Problems for Estimating Freezing Time
359	6. Symbols
360	References
361	Bibliography
362	SI_R22_Ch21 1. Refrigerated Storage Cooling Deterioration Desiccation
371	2. Refrigerated Storage Plant Operation Checking Temperatures and Humidity Air Circulation Sanitation and Air Purification
372	Removal of Produce from Storage 3. Storage of Frozen Foods 4. Other Products Beer Canned Foods Dried Foods Furs and Fabrics Honey
373	Maple Syrup Nursery Stock and Cut Flowers
374	Popcorn Vegetable Seeds References Bibliography
376	SI_R22_Ch22 1. Basic Microbiology Sources of Microorganisms Microbial Growth
377	2. Critical Microbial Growth Requirements Intrinsic Factors Extrinsic Factors
378	Biological Diversity 3. Design for Control of Microorganisms Contamination Prevention
379	Growth Prevention Destruction of Organisms 4. Role of HACCP 5. Sanitation
380	6. Regulations and Standards Bibliography
382	SI_R22_Ch23 1. Initial Building Considerations Location Configuration and Size Determination
383	Stacking Arrangement Building Design One-Story Configuration
384	Shipping and Receiving Docks Utility Space Specialized Storage Facilities Controlled-Atmosphere Storage Rooms
385	Automated Warehouses Refrigerated Rooms Construction Methods
386	Space Adjacent to Envelope Air/Vapor Treatment at Junctions
387	Floor Construction Surface Preparation Finishes Suspended Ceilings and Other Interstitial Spaces Floor Drains Electrical Wiring Tracking
388	Cold-Storage Doors Hardware Refrigerated Docks Schneider System 2. Refrigeration Systems Types of Refrigeration Systems
389	Choice of Refrigerant Load Determination
390	Unit Cooler Selection
391	Freezers
392	Controls
393	3. Insulation Techniques Vapor Retarder System
394	Types of Insulation Insulation Thickness 4. Applying Insulation Roofs Walls
395	Floors Freezer Doorways Doors
396	5. Other Considerations Temperature Pulldown
397	Material-Handling Equipment Fire Protection Inspection and Maintenance References Bibliography
400	SI_R22_Ch24 1. Transmission Load
401	Heat Gain from Cooler Floors
402	2. Product Load
403	3. Internal Load Packaging Related Load
404	4. Infiltration Air Load Infiltration by Air Exchange
406	Infiltration by Direct Flow Through Doorways
407	Sensible and Latent Heat Components 5. Equipment-Related Load
408	6. Safety Factor
409	7. Load Diversity
410	8. Symbols References Bibliography
411	Blank Page
412	SI_R22_Ch25 1. Vehicles 2. Vehicle Design Considerations Insulation and Vapor Barrier
414	Air Circulation Equipment Attachment Provisions Sanitation 3. Equipment Cargo Container and Rail Car Systems
415	Self-Powered Truck and Trailer Systems
416	Vehicle-Powered Systems Multitemperature Systems
417	Storage Effect Cooling Heating Only Ventilation Controlled and Modified Atmosphere Control Systems
418	4. Equipment Design and Selection Factors Time Shock and Vibration Ambient Temperature Extremes
419	Other Ambient Design Factors Operating Efficiency Guidelines Airborne Sound Safety
420	5. Qualification Testing
421	6. System Application Factors Load Calculations Equipment Selection
422	Owning and Operating Costs 7. Operations Commodity Precooling Vehicle Use Practices
423	Temperature Settings Other Cargo Space Considerations Maintenance
424	References Bibliography
426	SI_R22_Ch26 1. GENERAL CONSIDERATIONS 1.1 Refrigeration Load 1.2 Refrigeration System Refrigerants Compressors Condensers and Coolers
427	Receivers and Refrigerant Distribution Controls Thermometers, Thermostats, and Temperature Sensors 1.3 Cargo Holds Arrangement Space Cooling Insulation and Construction
428	Applying Insulation
429	Decks and Doors 2. Ships’ Refrigerated Stores 2.1 Commodities Meats and Poultry Fish, Ice Cream, and Bread
430	Fruits and Vegetables Dairy Products, Ice, and Drinking Water 2.2 Storage Areas Storage Space Requirements Stores’ Arrangement and Location
431	2.3 Ship Refrigerated Room Design Refrigerated Room Construction 2.4 Specific Vessels Cargo Vessels Specifications
432	Calculations 3. Fishing Vessels 3.1 Refrigeration System Design Hold Preparation 3.2 Refrigeration with Ice
433	3.3 Refrigeration with Seawater 3.4 Process Freezing and Cold Storage
434	References Bibliography
436	SI_R22_Ch27 1. Cargo Refrigeration 1.1 Perishable Air Cargo Fruits and Vegetables
437	Seafood Animals 1.2 Perishable Commodity Requirements 1.3 Design Considerations
438	1.4 Shipping Containers 1.5 Transit Refrigeration
439	1.6 Ground Handling
440	2. Galley Refrigeration
441	2.1 Galley Air Chillers and Systems Air Chiller
442	2.2 Galley Liquid-Chilling System
444	2.3 Galley Refrigeration Inserts 2.4 System Design Thermal Considerations
446	3. Hybrid Environmental Control Systems
449	References
450	SI_R22_Ch28 1. Fundamentals 1.1 Product Requirements 1.2 Calculation Methods Heat Load
451	Precooling Time Estimation Methods Fractional Unaccomplished Temperature Difference Half-Cooling Time
452	Cooling Coefficient Other Semianalytical/Empirical Precooling Time Estimation Methods Numerical Techniques 2. Cooling Methods 2.1 Hydrocooling
453	Types of Hydrocoolers
454	Variations on Hydrocooling
455	Hydrocooler Efficiency Hydrocooling Water Treatment 2.2 Forced-Air Cooling
456	Commercial Methods Effects of Containers and Stacking Patterns Moisture Loss in Forced-Air Cooling
457	Computer Solution 2.3 Forced-Air Evaporative Cooling 2.4 Package Icing
458	2.5 Vacuum Cooling Pressure, Volume, and Temperature
459	Commercial Systems Applications 2.6 Selecting a Cooling Method
460	2.7 Cooling Cut Flowers
461	Symbols References
462	Bibliography
464	SI_R22_Ch29 1. Freezing Methods 2. Blast Freezers
465	Cold Storage Rooms Stationary Blast Cell Freezing Tunnels Push-Through Trolley Freezers Straight Belt Freezers Multipass Straight Belt Freezers
466	Fluidized Bed Freezers Fluidized Belt Freezers Spiral Belt Freezers
467	Impingement Freezers Carton Freezers 3. Contact Freezers
468	Manual and Automatic Plate Freezers Specialized Contact Freezers 4. Cryogenic Freezers Liquid Nitrogen Freezers Carbon Dioxide Freezers 5. Cryomechanical Freezers 6. Other Freezer Selection Criteria Reliability
469	Hygiene Quality Economics
470	7. Refrigeration Systems Operation Maintenance Bibliography
472	SI_R22_Ch30 1. Sanitation Role of HACCP
473	2. Carcass Chilling and Holding Spray Chilling Beef Chilling Time Refrigeration Systems for Coolers
474	Beef Cooler Layout and Capacity
478	Boxed Beef Hog Chilling and Tempering
481	Pork Trimmings Fresh Pork Holding Calf and Lamb Chilling
482	Chilling and Freezing Variety Meats Packaging and Storage Packaged Fresh Cuts
483	Refrigeration Load Computations 3. Processed Meats
484	Bacon Slicing and Packaging Room Sausage Dry Rooms
486	Lard Chilling Blast and Storage Freezers
487	Direct-Contact Meat Chilling 4. Frozen Meat Products Freezing Quality of Meat Effect of Freezing on Quality Storage and Handling
488	Packaging 5. Shipping Docks 6. Energy Conservation
489	References Bibliography
490	SI_R22_Ch31 1. Processing 2. Chilling
493	3. Decontamination of Carcasses
494	4. Further Processing Unit Operations 5. Freezing Effect on Product Quality
495	Freezing Methods
496	Predicting Freezing or Thawing Times 6. Packaging
497	7. Airflow Systems in Poultry Processing Plants
498	Airflow System Consideration During Renovation 8. Plant Sanitation HACCP Systems in Poultry Processing
499	9. Tenderness Control 10. Distribution and Retail Holding Refrigeration 11. Preserving Quality in Storage and Marketing
500	12. Thawing References
501	Bibliography
502	SI_R22_Ch32 1. Fresh Fishery Products 1.1 Care Aboard Vessels Icing
503	Saltwater Icing Use of Preservatives Storage of Fish in Refrigerated Seawater Boxing at Sea 1.2 Shore Plant Procedure and Marketing
504	1.3 Packaging Fresh Fish 1.4 Fresh Fish Storage
505	Irradiation of Fresh Seafood Modified-Atmosphere (MA) Packaging 2. Frozen Fishery Products 2.1 Packaging
506	Package Considerations in Freezing Package Considerations for Frozen Storage Types of Packages 2.2 Freezing Methods Blast Freezing
507	Plate Freezing Immersion Freezing
508	Freezing Fish at Sea 2.3 Storage of Frozen Fish
509	Composition Storage Conditions Packaging and Glazing
510	Space Requirements 2.4 Transportation and Marketing
511	Bibliography
512	SI_R22_Ch33 1. Milk Production and Processing Handling Milk at the Dairy Receiving and Storing Milk
513	Separation and Clarification Pasteurization and Homogenization
515	Packaging Milk Products Equipment Cleaning Milk Storage and Distribution
516	Half-and-Half and Cream Buttermilk, Sour Cream, and Yogurt Refrigeration
517	2. Butter Manufacture Separation and Pasteurization Churning
519	Continuous Churning Packaging Butter Deterioration of Butter in Storage
520	Total Refrigeration Load Whipped Butter
521	3. Cheese Manufacture Cheddar Cheese
522	Provolone and Mozzarella (Pasta Filata Types) Swiss Cheese Roquefort and Blue Cheese
523	Cottage Cheese Other Cheeses
524	Refrigerating Cheese Rooms 4. Frozen Dairy Desserts
525	Ice Cream Ice Milk Soft Ice Milk or Ice Cream Frozen Yogurt Sherbets
526	Ices Making Ice Cream Mix Freezing
529	Ice Cream Bars and Other Novelties
530	Refrigeration Compressor Equipment Selection and Operation 5. Ultrahigh-Temperature (UHT) Sterilization and Aseptic Packaging (AP) Sterilization Methods and Equipment
531	Aseptic Packaging
532	Quality Control Heat-Labile Nutrients
533	6. Evaporated, Sweetened Condensed, and Dry Milk Evaporated Milk Sweetened Condensed Milk Dry Milk and Nonfat Dry Milk
534	Drum Drying
535	References Bibliography
536	SI_R22_Ch34 1. Shell Eggs 1.1 Egg Structure and Composition Physical Structure Chemical Composition
537	Nutritive Value 1.2 Egg Quality and Safety Quality Grades and Mass Classes
538	Quality Factors
539	Control and Preservation of Quality Egg Spoilage and Safety In-Shell Egg Pasteurization
540	HACCP Plan for Shell Eggs 1.3 Shell Egg Processing Off-Line and In-Line Processing 1.4 Effect of Refrigeration on Egg Quality and Safety
542	Refrigeration Requirement Issues Condensation on Eggs Initial Egg Temperatures
543	Egg Temperatures After Processing Cooling Rates Cooling for Storage Accelerated Cooling Methods 1.5 Packaging 1.6 Transportation
544	2. Egg Products 2.1 Egg Breaking
545	Holding Temperatures Pasteurization Yields
546	2.2 Refrigerated Liquid Egg Products Chilled Egg Products 2.3 Frozen Egg Products
547	2.4 Dehydrated Egg Products 2.5 Egg Product Quality
548	2.6 Sanitary Standards and Plant Sanitation HACCP Program for Egg Products References Bibliography
550	SI_R22_Ch35 1. Fruit Storage and Handling Considerations Quality and Maturity Handling and Harvesting Storage and Transportation 2. Apples
551	Controlled-Atmosphere Storage
552	Storage Diseases and Deterioration
555	3. Pears
556	Controlled-Atmosphere Storage Storage Diseases and Deterioration
557	4. Grapes Cooling and Storage Fumigation
559	Diseases
560	Storage Life Refrigeration System Materials and Practices Maintenance and Operation 5. Plums
561	Storage Diseases and Deterioration 6. Sweet Cherries Harvesting Techniques Cooling Storage Diseases 7. Peaches and Nectarines Storage Varieties Harvest Techniques Cooling Storage
562	Diseases 8. Apricots Diseases and Deterioration 9. Berries Diseases 10. Strawberries Diseases 11. Figs Diseases
563	12. Supplements to Refrigeration Antiseptic Washes Protective Packaging Selective Marketing Heat Treatment Fungicides Irradiation References Bibliography
564	SI_R22_Ch36 1. Citrus Fruit 1.1 Maturity and Quality 1.2 Harvesting and Packing Picking
565	Handling Accelerated Coloring or Sweating Color-Added Treatment Cooling
566	1.3 Transportation 1.4 Storage Oranges Grapefruit
567	Lemons Specialty Citrus Fruit Controlled-Atmosphere Storage 1.5 Storage Disorders and Control Postharvest Diseases Physiological Disturbances
568	2. Bananas 2.1 Harvesting and Transportation 2.2 Diseases and Deterioration 2.3 Exposure to Excessive Temperatures 2.4 Wholesale Processing Facilities
569	Airtightness Refrigeration Refrigeration Load Calculations Heating Air Circulation
570	Airflow Requirements Humidity Controls
571	3. Subtropical Fruit 3.1 Avocados Storage Disorders 3.2 Mangoes Storage Disorders 3.3 Pineapples Storage Disorders References Bibliography
572	SI_R22_Ch37 1. Product Selection and Quality Maintenance Postharvest Handling
573	Cooling Protective Packaging and Waxing 2. In-Transit Preservation Cooling Vehicle and Product Packaging, Loading, and Handling Providing Refrigeration and Air Circulation
574	Protection from Cold Checking and Cleaning Equipment Modified Atmospheres in Transit 3. Preservation in Destination Facilities
576	4. Refrigerated Storage Considerations Sprout Inhibitors
577	Controlled- and Modified-Atmosphere Storage Injury 5. Storage of Various Vegetables
578	Artichokes, Globe (0°C and 95 to 100% rh) Asparagus (0 to 2°C and 95 to 100% rh) Beans, Green or Snap (4 to 7°C and 95% rh) Beans, Lima (3 to 5°C and 95% rh)
579	Beets (0°C and 98 to 100% rh) Broccoli (0°C and 95 to 100% rh) Brussels Sprouts (0°C and 95 to 100% rh) Cabbage (0°C and 98 to 100% rh) Carrots (0°C and 98 to 100% rh) Cauliflower (0°C and 95% rh)
580	Celery (0°C and 98 to 100% rh) Corn, Sweet (0°C and 95 to 98% rh) Cucumbers (10 to 13°C and 95% rh)
581	Eggplants (8 to 12°C and 90 to 95% rh) Endive and Escarole (0°C and 95 to 100% rh) Garlic, Dry (0°C and 65 to 70% rh) Greens, Leafy (0°C and 95 to 100% rh) Lettuce (0°C and 95 to 100% rh) Melons
582	Mushrooms (0°C and 95% rh) Okra (7 to 10°C and 90 to 95% rh) Onions (0°C and 65 to 70% rh)
583	Parsley (0°C and 95 to 100% rh) Parsnips (0°C and 98 to 100% rh) Peas, Green (0°C and 95 to 98% rh) Peas, Southern (4 to 5°C and 95% rh) Peppers, Dry Chili or Hot Peppers, Sweet (7 to 13°C and 90 to 95% rh) Potatoes (Temperature, see following; 90 to 95% rh)
584	Pumpkins and Squash
585	Radishes (0°C and 95 to 100% rh) Rhubarb (0°C and 95% rh) Rutabagas (0°C and 98 to 100% rh) Spinach (0°C and 95 to 98% rh) Sweet Potatoes (13 to 16°C, 85 to 90% rh) Tomatoes (Mature Green, 13 to 21°C; Ripe, 10°C; 90 to 95% rh)
586	Turnips (0°C and 95% rh) References
587	Bibliography
588	SI_R22_Ch38 1. Orange Juice 1.1 Orange Concentrate Selecting, Handling, and Processing Fresh Fruit
590	1.2 Cold Storage 1.3 Concentration Methods Thermally Accelerated Short-Time Evaporator (TASTE)
591	Freeze Concentration 1.4 Quality Control 1.5 Chilled Juice
592	1.6 Refrigeration Refrigeration Equipment Refrigeration Loads Compressor Manifolding 1.7 Pure Fruit Juice Powders
593	2. Other Citrus Juices Grapefruit Juice Blended Grapefruit and Orange Juice Tangerine Juice 3. Noncitrus Juices 3.1 Pineapple Juice 3.2 Apple Juice
594	3.3 Grape Juice Concord Grapes Muscadines 3.4 Strawberry and Other Berry Juices
596	SI_R22_Ch39 1. Breweries 1.1 Malting 1.2 Process Aspects
598	1.3 Processing Wort Cooling
599	Fermenting Cellar Fermenting Cellar Refrigeration
600	Stock Cellar Kraeusen Cellar Finishing Operations
601	Outdoor Storage Tanks Hop Storage Yeast Culture Room 1.4 Pasteurization 1.5 Carbon Dioxide Collection
602	Liquefaction CO2 Storage and Reevaporation 1.6 Heat Balance
603	1.7 Common Refrigeration Systems 1.8 Vinegar Production 2. Wine Making
604	2.1 Must Cooling 2.2 Heat Treatment of Red Musts 2.3 Juice Cooling 2.4 Heat Treatment of Juices 2.5 Fermentation Temperature Control
605	2.6 Potassium Bitartrate Crystallization 2.7 Storage Temperature Control 2.8 Chill-Proofing Brandies 3. Carbonated Beverages 3.1 Beverage and Water Coolers
606	Refrigeration Plant Refrigeration Load 3.2 Size of Plant
607	3.3 Liquid Carbon Dioxide Storage References Bibliography
608	SI_R22_Ch40 1. Main Dishes, Meals General Plant Characteristics Preparation, Processing, Unit Operations
609	Assembly, Filling, and Packaging Cooling, Freezing, Casing
610	Finished Goods Storage and Shipping Refrigeration Loads Refrigeration Systems Plant Internal Environment 2. Vegetables
611	International Production Vegetables in Other Prepared Foods Refrigeration Loads and Systems
612	3. Fruits Refrigeration Loads and Systems 4. Potato Products French Fries
613	Formed Potato Products Hash Brown Potatoes Refrigeration Loads and Systems
614	5. Other Prepared Foods 6. Long-Term Storage Bibliography
616	SI_R22_Ch41 1. Ingredient Storage
617	2. Mixing Mixers Dough Systems
618	Dough Cooling 3. Fermentation 4. Bread Makeup
619	5. Final Proof 6. Baking 7. Bread Cooling
620	8. Slicing and Wrapping 9. Bread Freezing
621	10. Freezing Other Bakery Products 11. Frozen Pre-Proofed Bakery Products
622	12. Retarding Doughs and Batters 13. Choice of Refrigerants References Bibliography
624	SI_R22_Ch42 1. Candy Manufacture 1.1 Milk and Dark Chocolate
625	1.2 Hand Dipping and Enrobing 1.3 Bar Candy
626	1.4 Hard Candy 1.5 Hot Rooms 1.6 Cold Rooms
627	1.7 Cooling Tunnels 1.8 Coating Kettles or Pans 1.9 Packing Rooms
628	1.10 Refrigeration Plant 2. Storage 2.1 Candy Color
629	Flavor Texture Insects Storage Temperature
630	Humidity Requirements 2.2 Nuts Temperature Relative Humidity Atmosphere Packaging 2.3 Dried Fruits and Vegetables
631	Dried Fruit Storage Dried Vegetable Storage 2.4 Controlled Atmosphere
632	SI_R22_Ch43 1. Ice Makers Flake Ice Tubular Ice
633	Plate Ice
634	Ice Builders Scale Formation 2. Thermal Storage 3. Ice Storage
635	Ice Rake and Live Bottom Bins 4. Delivery Systems
636	Screw and Belt Conveyors Pneumatic Ice Conveying Slurry Pumping
637	5. Commercial Ice 6. Ice-Source Heat Pumps Bibliography
638	SI_R22_Ch44 1. Applications 2. Refrigeration Requirements
639	Heat Loads
641	3. Ice Rink Conditions
642	4. Equipment Selection Compressors Evaporators Condensers and Heat Recovery
644	Refrigerant Heat Recovery Potential Comparison Ice Temperature Control Ice Removal
645	Storage Accumulators Energy Consumption Dehumidifiers
646	5. Rink Floor Design Cooling Layer Insulation Layer Heating Layer Headers
647	Rink Piping and Pipe Supports
648	Expansion Tanks Coolant Equipment Drainage Preparation of Rink Floor Snow-Melting Pit 6. Building, Maintaining, and Planing Ice Surfaces
649	Pebbling Water Quality 7. Imitation Ice-Skating Surfaces
650	References Bibliography
651	Blank Page
652	SI_R22_Ch45 1. Concrete Dams 1.1 Methods of Temperature Control Cement Selection and Pozzolanic Admixtures Cooling with Embedded Coils Cooling with Chilled Water and Ice
653	Cooling by Inundation Air-Blast Cooling
654	Other Cooling Methods 1.2 System Selection Parameters 2. Control of Subsurface Water Flow
655	3. Soil Stabilization 3.1 Thermal Design Piling Design Slab-on-Grade Buildings, Outdoor Slabs, and Equipment Pads Design Considerations 3.2 Passive Cooling Air Convection Systems Liquid Convection Systems Two-Phase Systems (Heat Pipes)
656	3.3 Active Systems
657	References Bibliography
658	SI_R22_Ch46 1. Flow Sheets and Specifications 2. Refrigeration as a Utility
659	3. Load Characteristics Production Philosophy Flexibility Requirements 4. Safety Requirements Corrosion
660	Toxicity Fire and Explosion Refrigeration System Malfunction Maintenance 5. Equipment Characteristics Automation
661	Outdoor Construction Energy Recovery Performance Testing Insulation Requirements
662	Design Standards and Codes 6. Start-Up and Shutdown 7. Refrigerants 8. Refrigeration Systems
663	9. Refrigeration Equipment Compressors
664	Absorption Equipment Condensers Evaporators
665	Instrumentation and Controls Cooling Towers and Spray Ponds Miscellaneous Equipment
666	References BIBLIOGRAPHY
668	SI_R22_Ch47 1. General Applications 2. Low-Temperature Properties Fluid Properties
670	Thermal Properties
672	Electrical and Magnetic Properties
673	Mechanical Properties 3. Refrigeration and Liquefaction Isenthalpic Expansion
674	Isentropic Expansion
675	Combined Isenthalpic and Isentropic Expansion Mixed-Refrigerant Cycle
677	Comparison of Refrigeration and Liquefaction Systems
678	4. Cryocoolers Recuperative Systems
681	Regenerative Systems
683	5. Separation and Purification of Gases
684	Air Separation
685	Helium Recovery Natural Gas Processing
686	Purification Procedures
687	6. Equipment Compression Systems Expansion Devices
688	Heat Exchangers
690	7. Low-Temperature Insulations
691	High-Vacuum Insulation Evacuated Multilayer Insulations
692	Evacuated Powder and Fibrous Insulations
693	Homogeneous Material Insulations Composite Material Insulations Systems 8. Storage and Transfer Systems Storage Systems
694	Transfer Systems 9. Instrumentation Pressure Measurements Thermometry
695	Liquid-Level Measurements Density Measurements Flow Measurements 10. Hazards of Cryogenic Systems Physiological Hazards
696	Construction and Operations Hazards
697	Flammability and Detonability Hazards
698	Hazard Evaluation Summary References
699	Bibliography
700	SI_R22_Ch48 1. Autocascade Systems Operational Characteristics
701	Design Considerations 2. Custom-Designed and Field-Erected Systems 3. Single-Refrigerant Systems Two-Stage Systems
702	Refrigerant and Compressor Selection Special Multistage Systems 4. Cascade Systems
703	Refrigerants for Low-Temperature Circuit Compressor Lubrication
704	Compressors
705	Choice of Metal for Piping and Vessels 5. Ultralow-Temperature Materials Metals
707	Thermoplastic Polymers Thermosetting Plastics Fiber Composites
708	Adhesives 6. Insulation 7. Heat Transfer
709	8. Secondary Coolants
710	References
711	Bibliography
712	SI_R22_Ch49 1. Preservation Applications Principles of Biological Preservation
714	Preservation of Biological Materials by Freezing Preservation of Biological Materials by Freeze Drying
715	Preservation of Biological Materials by Vitrification
716	Preservation of Biological Materials by Undercooling
717	2. Research Applications Electron Microscopy Specimen Preparation Cryomicroscopy
718	Cryomicrotome 3. Clinical Applications Hypothermia Cryosurgery
719	4. Refrigeration Hardware for Cryobiological Applications
720	References
722	Bibliography
724	SI_R22_Ch50
735	References
736	SI_R22_Ch51
766	SI_R2022 IndexIX Abbreviations, F38 Absorbents Absorption Acoustics. See Sound Activated alumina, S24.1, 4, 12 Activated carbon adsorption, A47.9 Adaptation, environmental, F9.17 ADPI. See Air diffusion performance index (ADPI) Adsorbents Adsorption Aeration, of farm crops, A26 Aerosols, S29.1 AFDD. See Automated fault detection and diagnostics (AFDD) Affinity laws for centrifugal pumps, S44.8 AFUE. See Annual fuel utilization efficiency (AFUE) AHU. See Air handlers Air Air barriers, F25.9; F26.5 Airborne infectious diseases, F10.7 Air cleaners. (See also Filters, air; Industrial exhaust gas cleaning) Air conditioners. (See also Central air conditioning)
767	Air conditioning. (See also Central air conditioning) Air contaminants, F11. (See also Contaminants) Aircraft, A13 Air curtains Air diffusers, S20 Air diffusion, F20 Air diffusion performance index (ADPI), A58.6 Air dispersion systems, fabric, S19.11 Air distribution, A58; F20; S4; S20 Air exchange rate Air filters. See Filters, air Airflow
768	Airflow retarders, F25.9 Air flux, F25.2. (See also Airflow) Air handlers Air inlets Air intakes Air jets. See Air diffusion Air leakage. (See also Infiltration) Air mixers, S4.8 Air outlets Airports, air conditioning, A3.6 Air quality. [See also Indoor air quality (IAQ)] Air terminal units (ATUs) Airtightness, F37.24 Air-to-air energy recovery, S26 Air-to-transmission ratio, S5.13 Air transport, R27 Air washers Algae, control, A50.12 All-air systems Altitude, effects of Ammonia Anchor bolts, seismic restraint, A56.7 Anemometers Animal environments
769	Annual fuel utilization efficiency (AFUE), S34.2 Antifreeze Antisweat heaters (ASH), R15.5 Apartment buildings Aquifers, thermal storage, S51.7 Archimedes number, F20.6 Archives. See Museums, galleries, archives, and libraries Arenas Argon, recovery, R47.17 Asbestos, F10.5 ASH. See Antisweat heaters (ASH) Atriums Attics, unconditioned, F27.2 Auditoriums, A5.3 Automated fault detection and diagnostics (AFDD), A40.4; A63.1 Automobiles Autopsy rooms, A9.12; A10.6, 7 Avogadro’s law, and fuel combustion, F28.11 Backflow-prevention devices, S46.14 BACnet®, A41.9; F7.18 Bacteria Bakery products, R41 Balance point, heat pumps, S48.9 Balancing. (See also Testing, adjusting, and balancing) BAS. See Building automation systems (BAS) Baseboard units Basements Bayesian analysis, F19.37 Beer’s law, F4.16 Behavior BEMP. See Building energy modeling professional (BEMP) Bernoulli equation, F21.1 Best efficiency point (BEP), S44.8 Beverages, R39 BIM. See Building information modeling (BIM) Bioaerosols Biocides, control, A50.14 Biodiesel, F28.8 Biological safety cabinets, A17.5 Biomanufacturing cleanrooms, A19.11 Bioterrorism. See Chemical, biological, radio- logical, and explosive (CBRE) incidents Boilers, F19.21; S32 Boiling Brake horsepower, S44.8 Brayton cycle Bread, R41 Breweries Brines. See Coolants, secondary Building automation systems (BAS), A41.8; A63.1; F7.14
770	Building energy modeling professional (BEMP), F19.5 Building energy monitoring, A42. (See also Energy, monitoring) Building envelopes Building information modeling (BIM), A41.8; A60.18 Building materials, properties, F26 Building performance simulation (BPS), A65.8 Buildings Building thermal mass Burners Buses Bus terminals Butane, commercial, F28.5 CAD. See Computer-aided design (CAD) Cafeterias, service water heating, A51.12, 19 Calcium chloride brines, F31.1 Candy Capillary action, and moisture flow, F25.10 Capillary tubes Carbon dioxide Carbon emissions, F34.7 Carbon monoxide Cargo containers, R25 Carnot refrigeration cycle, F2.6
771	Cattle, beef and dairy, A25.7. (See also Animal environments) CAV. See Constant air volume (CAV) Cavitation, F3.13 CBRE. See Chemical, biological, radiological, and explosive (CBRE) incidents CEER. See Combined energy efficiency ratio (CEER) Ceiling effect. See Coanda effect Ceilings Central air conditioning, A43. (See also Air conditioning) Central plant optimization, A8.13 Central plants Central systems Cetane number, engine fuels, F28.9 CFD. See Computational fluid dynamics (CFD) Change-point regression models, F19.28 Charge minimization, R1.36 Charging, refrigeration systems, R8.4 Chemical, biological, radiological, and explosive (CBRE) incidents, A61 Chemical plants Chemisorption, A47.10 Chilled beams, S20.10 Chilled water (CW) Chillers Chilton-Colburn j-factor analogy, F6.7 Chimneys, S35 Chlorinated polyvinyl chloride (CPVC), A35.44 Chocolate, R42.1. (See also Candy) Choking, F3.13 CHP systems. See Combined heat and power (CHP) Cinemas, A5.3 CKV. See Commercial kitchen ventilation (CVK) Claude cycle, R47.8 Cleanrooms. See Clean spaces Clean spaces, A19
772	Clear-sky solar radiation, calculation, F14.8 Climate change, F36 Climatic design information, F14 Clinics, A9.17 Clothing CLTD/CLF. See Cooling load temperature differential method with solar cooling load factors (CLTD/CLF) CMMS. See Computerized maintenance management system (CMSS) Coal Coanda effect, A34.22; F20.2, 7; S20.2 Codes, A66. (See also Standards) Coefficient of performance (COP) Coefficient of variance of the root mean square error [CV(RMSE)], F19.33 Cogeneration. See Combined heat and power (CHP) Coils Colburn’s analogy, F4.17 Colebrook equation Collaborative design, A60 Collectors, solar, A36.6, 11, 24, 25; S37.3 Colleges and universities, A8.11 Combined energy efficiency ratio (CEER), S49.3 Combined heat and power (CHP), S7 Combustion, F28
773	Combustion air systems Combustion turbine inlet cooling (CTIC), S7.21; S8.1 Comfort. (See also Physiological principles, humans) Commercial and public buildings, A3 Commercial kitchen ventilation (CKV), A34 Commissioning, A44 Comprehensive room transfer function method (CRTF), F19.11 Compressors, S38 Computational fluid dynamics (CFD), F13.1, F19.25 Computer-aided design (CAD), A19.6 Computerized maintenance management system (CMMS), A60.17 Computers, A41 Concert halls, A5.4 Concrete Condensate Condensation
774	Condensers, S39 Conductance, thermal, F4.3; F25.1 Conduction Conductivity, thermal, F25.1; F26.1 Constant air volume (CAV) Construction. (See also Building envelopes) Containers. (See also Cargo containers) Contaminants Continuity, fluid dynamics, F3.2 Control. (See also Controls, automatic; Supervisory control)
775	Controlled-atmosphere (CA) storage Controlled-environment rooms (CERs), and plant growth, A25.16 Controls, automatic, F7. (See also Control) Convection Convectors Convention centers, A5.5 Conversion factors, F39 Cooking appliances Coolants, secondary Coolers. (See also Refrigerators)
776	Cooling. (See also Air conditioning) Cooling load Cooling load temperature differential method with solar cooling load factors (CLTD/CLF), F18.57 Cooling towers, S40 Cool storage, S51.1 COP. See Coefficient of performance (COP) Corn, drying, A26.1 Correctional facilities. See Justice facilities Corrosion Costs. (See also Economics) Cotton, drying, A26.8 Courthouses, A10.5 Courtrooms, A10.5 CPVC. See Chlorinated polyvinyl chloride (CPVC) Crawlspaces Critical spaces Crops. See Farm crops Cruise terminals, A3.6 Cryogenics, R47
777	Curtain walls, F15.6 Dairy products, R33 Dampers Dampness problems in buildings, A64.1 Dams, concrete cooling, R45.1 Darcy equation, F21.6 Darcy-Weisbach equation Data centers, A20 Data-driven modeling Daylighting, F19.26 DDC. See Direct digital control (DDC) Dedicated outdoor air system (DOAS), F36.12; S4.14; S18.2, 8; S25.4; S51 Definitions, of refrigeration terms, R50 Defrosting Degree-days, F14.12 Dehumidification, A48.15; S24 Dehumidifiers Dehydration Demand control kitchen ventilation (DCKV), A34.18 Density Dental facilities, A9.17 Desiccants, F32.1; S24.1
778	Design-day climatic data, F14.12 Desorption isotherm, F26.20 Desuperheaters Detection Dew point, A64.8 Diamagnetism, and superconductivity, R47.5 Diesel fuel, F28.9 Diffusers, air, sound control, A49.12 Diffusion Diffusivity Dilution Dining halls, in justice facilities, A10.4 DIR. See Dispersive infrared (DIR) Direct digital control (DDC), F7.4, 11 Direct numerical simulation (DNS), turbulence modeling, F13.4; F24.13 Dirty bombs. See Chemical, biological, radio- logical, and explosive (CBRE) incidents Disabilities, A8.23 Discharge coefficients, in fluid flow, F3.9 Dispersive infrared (DIR), F7.10 Display cases Display cases, R15.2, 5 District energy (DE). See District heating and cooling (DHC) District heating and cooling (DHC), S12 d-limonene, F31.12 DNS. See Direct numerical simulation (DNS) DOAS. See Dedicated outdoor air system (DOAS) Doors Dormitories Draft Drag, in fluid flow, F3.5 Driers, S7.6. (See also Dryers) Drip station, steam systems, S12.14 Dryers. (See also Driers) Drying DTW. See Dual-temperature water (DTW) system Dual-duct systems Dual-temperature water (DTW) system, S13.1 DuBois equation, F9.3 Duct connections, A64.10 Duct design Ducts
779	Dust mites, F25.16 Dusts, S29.1 Dynamometers, A18.1 Earth, stabilization, R45.3, 4 Earthquakes, seismic-resistant design, A56.1 Economic analysis, A38 Economic coefficient of performance (ECOP), S7.2 Economic performance degradation index (EPDI), A63.5 Economics. (See also Costs) Economizers ECOP. See Economic coefficient of performance (ECOP) ECS. See Environmental control system (ECS) Eddy diffusivity, F6.7 Educational facilities, A8 EER. See Energy efficiency ratio (EER) Effectiveness, heat transfer, F4.22 Effectiveness-NTU heat exchanger model, F19.19 Efficiency Eggs, R34 Electricity Electric thermal storage (ETS), S51.17 Electronic smoking devices (“e-cigarettes”), F11.19 Electrostatic precipitators, S29.7; S30.7 Elevators Emissions, pollution, F28.9 Emissivity, F4.2 Emittance, thermal, F25.2 Enclosed vehicular facilities, A16 Energy
780	Energy and water use and management, A37 Energy efficiency ratio (EER) Energy savings performance contracting (ESPC), A38.8 Energy transfer station, S12.37 Engines, S7 Engine test facilities, A18 Enhanced tubes. See Finned-tube heat transfer coils Enthalpy Entropy, F2.1 Environmental control Environmental control system (ECS), A13 Environmental health, F10 Environmental tobacco smoke (ETS) EPDI. See Economic performance degradation index (EPDI) Equipment vibration, A49.44; F8.17 ERF. See Effective radiant flux (ERF) ESPC. See Energy savings performance contracting (ESPC) Ethylene glycol, in hydronic systems, S13.24 ETS. See Environmental tobacco smoke (ETS); Electric thermal storage (ETS) Evaluation. See Testing Evaporation, in tubes Evaporative coolers. (See also Refrigerators) Evaporative cooling, A53 Evaporators. (See also Coolers, liquid) Exfiltration, F16.2 Exhaust
781	Exhibit buildings, temporary, A5.6 Exhibit cases Exhibition centers, A5.5 Expansion joints and devices Expansion tanks, S12.10 Explosions. See Chemical, biological, radio- logical, and explosive (CBRE) incidents Fairs, A5.6 Family courts, A10.4. (See also Juvenile detention facilities) Fan-coil units, S5.6 Fans, F19.18; S21 Farm crops, drying and storing, A26 Faults, system, reasons for detecting, A40.4 f-Chart method, sizing heating and cooling systems, A36.20 Fenestration. (See also Windows) Fick’s law, F6.1 Filters, air, S29. (See also Air cleaners) Finned-tube heat-distributing units, S36.2, 5 Finned-tube heat transfer coils, F4.25 Fins, F4.6 Fire/smoke control. See Smoke control Firearm laboratories, A10.7 Fire management, A54.2 Fireplaces, S34.5 Fire safety Fish, R19; R32 Fitness facilities. (See also Gymnasiums) Fittings
782	Fixed-guideway vehicles, A12.7. (See also Mass-transit systems) Fixture units, A51.1, 28 Flammability limits, gaseous fuels, F28.1 Flash tank, steam systems, S11.14 Floors Flowers, cut Flowmeters, A39.26; F37.18 Fluid dynamics computations, F13.1 Fluid flow, F3 Food. (See also specific foods) Food service Forced-air systems, residential, A1.1 Forensic labs, A10.6 Fouling factor Foundations Fountains, Legionella pneumophila control, A50.15 Fourier’s law, and heat transfer, F25.5 Four-pipe systems, S5.5 Framing, for fenestration Freeze drying, A31.6 Freeze prevention. (See also Freeze protection systems) Freeze protection systems, A52.19, 20 Freezers Freezing Friction, in fluid flow
783	Fruit juice, R38 Fruits Fuel cells, combined heat and power (CHP), S7.22 Fuels, F28 Fume hoods, laboratory exhaust, A17.3 Fungi Furnaces, S33 Galleries. See Museums, galleries, archives, and libraries Garages Gases Gas-fired equipment, S34. (See also Natural gas) Gas vents, S35.1 Gaussian process (GP) models, F19.30 GCHP. See Ground-coupled heat pumps (GCHP) Generators Geothermal energy, A35 Geothermal heat pumps (GHP), A35.1 Glaser method, F25.15 Glazing Global climate change, F36 Global warming potential (GWP), F29.5 Glossary, of refrigeration terms, R50 Glycols, desiccant solution, S24.2 Graphical symbols, F38 Green design, and sustainability, F35.1 Greenhouses. (See also Plant environments) Grids, for computational fluid dynamics, F13.4 Ground-coupled heat pumps (GCHP) Ground-coupled systems, F19.23 Ground-source heat pumps (GSHP), A35.1 Groundwater heat pumps (GWHP), A35.30 GSHP. See Ground-source heat pumps (GSHP) Guard stations, in justice facilities, A10.5 GWHP. See Groundwater heat pumps (GWHP) GWP. See Global warming potential (GWP) Gymnasiums, A5.5; A8.3 HACCP. See Hazard analysis critical control point (HACCP) Halocarbon Hartford loop, S11.3 Hay, drying, A26.8 Hazard analysis and control, F10.4 Hazard analysis critical control point (HACCP), R22.4 Hazen-Williams equation, F22.6 HB. See Heat balance (HB) Health
784	Health care facilities, A9. (See also specific types) Health effects, mold, A64.1 Heat Heat and moisture control, F27.1 Heat balance (HB), S9.23 Heat balance method, F19.3 Heat capacity, F25.1 Heat control, F27 Heaters, S34 Heat exchangers, S47 Heat flow, F25. (See also Heat transfer) Heat flux, F25.1 Heat gain. (See also Load calculations) Heating Heating load Heating seasonal performance factor (HSPF), S48.6 Heating values of fuels, F28.3, 9, 10 Heat loss. (See also Load calculations)
785	Heat pipes, air-to-air energy recovery, S26.14 Heat pumps Heat recovery. (See also Energy, recovery) Heat storage. See Thermal storage Heat stress Heat transfer, F4; F25; F26; F27. (See also Heat flow) Heat transmission Heat traps, A51.1 Helium High-efficiency particulate air (HEPA) filters, A29.3; S29.6; S30.3 High-rise buildings. See Tall buildings High-temperature short-time (HTST) pasteurization, R33.2 High-temperature water (HTW) system, S13.1
786	Homeland security. See Chemical, biological, radiological, and explosive (CBRE) incidents Hoods Hospitals, A9.3 Hot-box method, of thermal modeling, F25.8 Hotels and motels, A7 Hot-gas bypass, R1.35 Houses of worship, A5.3 HSI. See Heat stress, index (HSI) HSPF. See Heating seasonal performance factor (HSPF) HTST. See High-temperature short-time (HTST) pasteurization Humidification, S22 Humidifiers, S22 Humidity (See also Moisture) HVAC security, A61 Hybrid inverse change point model, F19.31 Hybrid ventilation, F19.26 Hydrofluorocarbons (HFCs), R1.1 Hydrofluoroolefins (HFOs), R1.1 Hydrogen, liquid, R47.3 Hydronic systems, S35. (See also Water systems) Hygrometers, F7.9; F37.10, 11 Hygrothermal loads, F25.2 Hygrothermal modeling, F25.15; F27.10 IAQ. See Indoor air quality (IAQ) IBD. See Integrated building design (IBD) Ice Ice makers Ice rinks, A5.5; R44 ID50‚ mean infectious dose, A61.9 Ignition temperatures of fuels, F28.2 IGUs. See Insulating glazing units (IGUs) Illuminance, F37.31 Indoor airflow, A59.1
787	Indoor air quality (IAQ). (See also Air quality) Indoor environmental modeling, F13 Indoor environmental quality (IEQ), kitchens, A33.20. (See also Air quality) Indoor swimming pools. (See also Natatoriums) Induction Industrial applications Industrial environments, A15, A32; A33 Industrial exhaust gas cleaning, S29. (See also Air cleaners) Industrial hygiene, F10.3 Infiltration. (See also Air leakage) Infrared applications In-room terminal systems Instruments, F14. (See also specific instruments or applications) Insulating glazing units (IGUs), F15.5 Insulation, thermal
788	Integrated building design (IBD), A60.1 Integrated project delivery (IPD), A60.1 Integrated project delivery and building design, Intercoolers, ammonia refrigeration systems, R2.12 Internal heat gains, F19.13 Jacketing, insulation, R10.7 Jails, A10.4 Joule-Thomson cycle, R47.6 Judges’ chambers, A10.5 Juice, R38.1 Jury facilities, A10.5 Justice facilities, A10 Juvenile detention facilities, A10.1. (See also Family courts) K-12 schools, A8.3 Kelvin’s equation, F25.11 Kirchoff’s law, F4.12 Kitchens, A34 Kleemenko cycle, R47.13 Krypton, recovery, R47.18 Laboratories, A17 Laboratory information management systems (LIMS), A10.8 Lakes, heat transfer, A35.37 Laminar flow Large eddy simulation (LES), turbulence modeling, F13.3; F24.13 Laser Doppler anemometers (LDA), F37.17 Laser Doppler velocimeters (LDV), F37.17 Latent energy change materials, S51.2 Laundries LCR. See Load collector ratio (LCR) LD50‚ mean lethal dose, A61.9 LDA. See Laser Doppler anemometers (LDA) LDV. See Laser Doppler velocimeters (LDV) LE. See Life expectancy (LE) rating Leakage
789	Leakage function, relationship, F16.15 Leak detection of refrigerants, F29.9 Legionella pneumophila, A50.15; F10.7 Legionnaires’ disease. See Legionella pneumophila LES. See Large eddy simulation (LES) Lewis relation, F6.9; F9.4 Libraries. See Museums, galleries, archives, and libraries Life expectancy (LE) rating, film, A23.3 Lighting Light measurement, F37.31 LIMS. See Laboratory information management systems (LIMS) Linde cycle, R47.6 Liquefied natural gas (LNG), S8.6 Liquefied petroleum gas (LPG), F28.5 Liquid overfeed (recirculation) systems, R4 Lithium bromide/water, F30.71 Lithium chloride, S24.2 LNG. See Liquefied natural gas (LNG) Load calculations Load collector ratio (LCR), A36.22 Local exhaust. See Exhaust Loss coefficients Louvers, F15.33 Low-temperature water (LTW) system, S13.1 LPG. See Liquefied petroleum gas (LPG) LTW. See Low-temperature water (LTW) system Lubricants, R6.1; R12. (See also Lubrication; Oil) Lubrication, R12 Mach number, S38.32 Maintenance. (See also Operation and maintenance) Makeup air units, S28.8 Malls, 12.7 Manometers, differential pressure readout, A39.25 Manufactured homes, A1.9 Masonry, insulation, F26.7. (See also Building envelopes) Mass transfer, F6
790	Mass-transit systems McLeod gages, F37.13 Mean infectious dose (ID50), A61.9 Mean lethal dose (LD50), A61.9 Mean temperature difference, F4.22 Measurement, F36. (See also Instruments) Measurement, F37. (See also Instruments) Meat, R30 Mechanical equipment room, central Mechanical traps, steam systems, S11.8 Medium-temperature water (MTW) system, S13.1 Megatall buildings, A4.1 Meshes, for computational fluid dynamics, F13.4 Metabolic rate, F9.6 Metals and alloys, low-temperature, R48.6 Microbial growth, R22.4 Microbial volatile organic chemicals (MVOCs), F10.8 Microbiology of foods, R22.1 Microphones, F37.29 Mines, A30 Modeling. (See also Data-driven modeling; Energy, modeling) Model predictive control (MPC), A65.6 Moist air Moisture (See also Humidity) Mold, A64.1; F25.16 Mold-resistant gypsum board, A64.7
791	Molecular sieves, R18.10; R41.9; R47.13; S24.5. (See also Zeolites) Montreal Protocol, F29.1 Morgues, A9.1 Motors, S45 Movie theaters, A5.3 MPC (model predictive control), A65.6 MRT. See Mean radiant temperature (MRT) Multifamily residences, A1.8 Multiple-use complexes Multisplit unitary equipment, S48.1 Multizone airflow modeling, F13.14 Museums, galleries, archives, and libraries MVOCs. See Microbial volatile organic compounds (MVOCs) Natatoriums. (See also Swimming pools) Natural gas, F28.5 Navier-Stokes equations, F13.2 NC curves. See Noise criterion (NC) curves Net positive suction head (NPSH), A35.31; R2.9; S44.10 Network airflow models, F19.25 Neutral pressure level (NPL), A4.1 Night setback, recovery, A43.44 Nitrogen Noise, F8.13. (See also Sound) Noise criterion (NC) curves, F8.16 Noncondensable gases Normalized mean bias error (NMBE), F19.33 NPL. See Neutral pressure level (NPL) NPSH. See Net positive suction head (NPSH) NTU. See Number of transfer units (NTU) Nuclear facilities, A29 Number of transfer units (NTU) Nursing facilities, A9.17 Nuts, storage, R42.7 Odors, F12 ODP. See Ozone depletion potential (ODP) Office buildings Oil, fuel, F28.7 Oil. (See also Lubricants) Olf unit, F12.6 One-pipe systems Operating costs, A38.4 Operation and maintenance, A39. (See also Maintenance) OPR. See Owner’s project requirements (OPR) Optimization, A43.4
792	Outdoor air, free cooling (See also Ventilation) Outpatient health care facilities, A9.16 Owning costs, A38.1 Oxygen Ozone Ozone depletion potential (ODP), F29.5 PACE. (See Property assessment for clean energy) Packaged terminal air conditioners (PTACs), S49.5 Packaged terminal heat pumps (PTHPs), S49.5 PAH. See Polycyclic aromatic hydrocarbons (PAHs) Paint, and moisture problems, F25.16 Panel heating and cooling, S6. (See also Radiant heating and cooling) Paper Paper products facilities, A27 Parallel compressor systems, R15.14 Particulate matter, indoor air quality (IAQ), F10.5 Passive heating, F19.27 Pasteurization, R33.2 Peak dew point, A64.10 Peanuts, drying, A26.9 PEC systems. See Personal environmental control (PEC) systems PEL. See Permissible exposure limits (PEL) Performance contracting, A42.2 Performance monitoring, A48.6 Permafrost stabilization, R45.4 Permeability Permeance Permissible exposure limits (PELs), F10.5 Personal environmental control (PEC) systems, F9.26 Pharmaceutical manufacturing cleanrooms, A19.11 Pharmacies, A9.13 Phase-change materials, thermal storage in, S51.16, 27 Photographic materials, A23 Photovoltaic (PV) systems, S36.18. (See also Solar energy) Physical properties of materials, F33 Physiological principles, humans. (See also Comfort) Pigs. See Swine Pipes. (See also Piping) Piping. (See also Pipes)
793	Pitot tubes, A39.2; F37.17 Places of assembly, A5 Planes. See Aircraft Plank’s equation, R20.7 Plant environments, A25.10 Plenums PMV. See Predicted mean vote (PMV) Police stations, A10.1 Pollutant transport modeling. See Contami- nants, indoor, concentration prediction Pollution Pollution, air, and combustion, F28.9, 17 Polycyclic aromatic hydrocarbons (PAHs), F10.6 Polydimethylsiloxane, F31.12 Ponds, spray, S40.6 Pope cell, F37.12 Positive building pressure, A64.11 Positive positioners, F7.8 Potatoes Poultry. (See also Animal environments) Power grid, A63.9 Power-law airflow model, F13.14 Power plants, A28 PPD. See Predicted percent dissatisfied (PPD) Prandtl number, F4.17 Precooling Predicted mean vote (PMV), F37.32 Predicted percent dissatisfied (PPD), F9.18 Preschools, A8.1 Pressure Pressure drop. (See also Darcy-Weisbach equation) Primary-air systems, S5.10 Printing plants, A21
794	Prisons, A10.4 Produce Product load, R15.6 Propane Property assessment for clean energy (PACE), A38.9 Propylene glycol, hydronic systems, S13.24 Psychrometers, F1.13 Psychrometrics, F1 PTACs. See Packaged terminal air condition- ers (PTACs) PTHPs. See Packaged terminal heat pumps (PTHPs) Public buildings. See Commercial and public buildings; Places of assembly Pumps Pumps, F19.18 Purge units, centrifugal chillers, S43.11 PV systems. See Photovoltaic (PV) systems; Solar energy Radiant heating and cooling, A55; S6.1; S15; S33.4. (See also Panel heating and cooling) Radiant time series (RTS) method, F18.2, 22 Radiation Radiators, S36.1, 5 Radioactive gases, contaminants, F11.21 Radiosity method, F19.26 Radon, F10.16, 22 Rail cars, R25. (See also Cargo containers) Railroad tunnels, ventilation Rain, and building envelopes, F25.4 RANS. See Reynolds-Averaged Navier-Stokes (RANS) equation Rapid-transit systems. See Mass-transit systems Rayleigh number, F4.20 Ray tracing method, F19.27 RC curves. See Room criterion (RC) curves Receivers Recycling refrigerants, R9.3 Refrigerant/absorbent pairs, F2.15 Refrigerant control devices, R11
795	Refrigerants, F29.1 Refrigerant transfer units (RTU), liquid chillers, S43.11 Refrigerated facilities, R23 Refrigeration, F1.16. (See also Absorption; Adsorption)
796	Refrigeration oils, R12. (See also Lubricants) Refrigerators Regulators. (See also Valves) Relative humidity, F1.12 Residential health care facilities, A9.17 Residential systems, A1 Resistance, thermal, F4; F25; F26. (See also R-values) Resistance temperature devices (RTDs), F7.9; F37.6 Resistivity, thermal, F25.1 Resource utilization factor (RUF), F34.2 Respiration of fruits and vegetables, R19.17 Restaurants Retail facilities, 12 Retrofit performance monitoring, A42.4 Retrofitting refrigerant systems, contaminant control, S7.9 Reynolds-averaged Navier-Stokes (RANS) equation, F13.3; F24.13 Reynolds number, F3.3 Rice, drying, A26.9 RMS. See Root mean square (RMS) Road tunnels, A16.3 Roofs, U-factors, F27.2 Room air distribution, A58; S20.1 Room criterion (RC) curves, F8.16 Root mean square (RMS), F37.1 RTDs. See Resistance temperature devices (RTDs) RTS. See Radiant time series (RTS) RTU. See Refrigerant transfer units (RTU) RUF. See Resource utilization factor (RUF) Rusting, of building components, F25.16 R-values, F23; F25; F26. (See also Resistance, thermal) Safety Sanitation Savings-to-investment ratio (SIR), A38.12 Savings-to-investment-ratio (SIR), A38.12 Scale Schneider system, R23.7 Schools Seasonal energy efficiency ratio (SEER) Security. See Chemical, biological, radio- logical, and explosive (CBRE) incidents
797	Seeds, storage, A26.12 SEER. See Seasonal energy efficiency ratio (SEER) Seismic restraint, A49.53; A56.1 Semivolatile organic compounds (SVOCs), F10.4, 12; F11.15 Sensors Separators, lubricant, R11.23 Service water heating, A51 SES. See Subway environment simulation (SES) program Set points, A65.1 Shading Ships, A13 Shooting ranges, indoor, A10.8 Short-tube restrictors, R11.31 Silica gel, S24.1, 4, 6, 12 Single-duct systems, all-air, S4.11 SIR. See Savings-to-investment ratio (SIR) Skating rinks, R44.1 Skylights, and solar heat gain, F15.21 Slab heating, A52 Slab-on-grade foundations, A45.11 SLR. See Solar-load ratio (SLR) Smart building systems, A63.1 Smart grid, A63.9, 11 Smoke control, A54 Snow-melting systems, A52 Snubbers, seismic, A56.8 Sodium chloride brines, F31.1 Soft drinks, R39.10 Software, A65.7 Soils. (See also Earth) Solar energy, A36; S37.1 (See also Solar heat gain; Solar radiation)
798	Solar heat gain, F15.14; F18.16 Solar-load ratio (SLR), A36.22 Solar-optical glazing, F15.14 Solar radiation, F14.8; F15.14 Solid fuel Solvent drying, constant-moisture, A31.7 Soot, F28.20 Sorbents, F32.1 Sorption isotherm, F25.10; F26.20 Sound, F8. (See also Noise) Soybeans, drying, A26.7 Specific heat Split-flux method, F19.26 Spot cooling Stack effect Stadiums, A5.4 Stairwells Standard atmosphere, U.S., F1.1 Standards, A66. (See also Codes) Static air mixers, S4.8 Static electricity and humidity, S22.2
799	Steam Steam systems, S11 Steam traps, S11.7 Stefan-Boltzmann equation, F4.2, 12 Stevens’ law, F12.3 Stirling cycle, R47.14 Stokers, S31.17 Storage Stoves, heating, S34.5 Stratification Stroboscopes, F37.28 Subcoolers Subway environment simulation (SES) program, A16.3 Subway systems. (See also Mass-transit systems) Suction risers, R2.24 Sulfur content, fuel oils, F28.9 Superconductivity, diamagnetism, R47.5 Supermarkets. See Retail facilities, supermarkets Supertall buildings, A4.1 Supervisory control, A43 Supply air outlets, S20.2. (See also Air outlets) Surface effect. See Coanda effect Surface transportation Surface water heat pump (SWHP), A35.3 Sustainability, F16.1; F35.1; S48.2 SVFs. See Synthetic vitreous fibers (SVFs) SVOCs. See Semivolatile organic compounds (SVOCs) SWHP. See Surface water heat pump (SWHP) Swimming pools. (See also Natatoriums) Swine, recommended environment, A25.7 Symbols, F38 Synthetic vitreous fibers (SVFs), F10.6 TABS. See Thermally activated building systems (TABS)
800	Tachometers, F37.28 Tall buildings, A4 Tanks, secondary coolant systems, R13.2 TDD. See Tubular daylighting devices Telecomunication facilities, air-conditioning systems, A20.1 Temperature Temperature-controlled transport, R25.1 Temperature index, S22.3 Terminal units. [See also Air terminal units (ATUs)], A48.13, F19.16; S20.7 Terminology, of refrigeration, R50 Terrorism. See Chemical, biological, radio- logical, and explosive (CBRE) incidents TES. See Thermal energy storage (TES) Testing Testing, adjusting, and balancing. (See also Balancing) TETD/TA. See Total equivalent temperature differential method with time averaging (TETD/TA) TEWI. See Total equivalent warning impact (TEWI) Textile processing plants, A22 TFM. See Transfer function method (TFM) Theaters, A5.3 Thermal bridges, F25.8 Thermal comfort. See Comfort Thermal displacement ventilation (TDV), F19.17 Thermal emittance, F25.2 Thermal energy storage (TES), S8.6; S51
801	Thermally activated building systems (TABS), A43.3, 34 Thermal-network method, F19.11 Thermal properties, F26.1 Thermal resistivity, F25.1 Thermal storage, Thermal storage. See Thermal energy storage (TES) S51 Thermal transmission data, F26 Thermal zones, F19.14 Thermistors, R11.4 Thermodynamics, F2.1 Thermometers, F37.5 Thermopile, F7.4; F37.9; R45.4 Thermosiphons Thermostats Three-dimensional (3D) printers, F11.18 Three-pipe distribution, S5.6 Tobacco smoke Tollbooths Total equivalent temperature differential method with time averaging (TETD/TA), F18.57 Total equivalent warming impact (TEWI), F29.5 Trailers and trucks, refrigerated, R25. (See also Cargo containers) Transducers, F7.10, 13 Transfer function method (TFM); F18.57; F19.3 Transmittance, thermal, F25.2 Transmitters, F7.9, 10 Transpiration, R19.19 Transportation centers Transport properties of refrigerants, F30 Traps Trucks, refrigerated, R25. (See also Cargo containers) Tubular daylighting devices (TDDs), F15.30 Tuning automatic control systems, F7.19 Tunnels, vehicular, A16.1 Turbines, S7 Turbochargers, heat recovery, S7.34 Turbulence modeling, F13.3 Turbulent flow, fluids, F3.3 Turndown ratio, design capacity, S13.4 Two-node model, for thermal comfort, F9.18 Two-pipe systems, S5.5; S13.20 U.S. Marshal spaces, A10.6 U-factor Ultralow-penetration air (ULPA) filters, S29.6; S30.3 Ultraviolet (UV) lamp systems, S17
802	Ultraviolet air and surface treatment, A62 Ultraviolet germicidal irradiation (UVGI), A60.1; S17.1. [See also Ultraviolet (UV) lamp systems] Ultraviolet germicidal irradiation (UVGI), A62.1; S17.1. [See also Ultraviolet (UV) lamp systems] Uncertainty analysis Underfloor air distribution (UFAD) systems, A4.6; A58.14; F19.17 Unitary systems, S48 Unit heaters. See Heaters Units and conversions, F39 Unit ventilators, S28.1 Utility interface, electric, S7.43 Utility rates, A63.11 UV. See Ultraviolet (UV) lamp systems UVGI. See Ultraviolet germicidal irradiation (UVGI) Vacuum cooling, of fruits and vegetables, R28.9 Validation, of airflow modeling, F13.9, 10, 17 Valves. (See also Regulators) Vaporization systems, S8.6 Vapor pressure, F27.8; F33.2 Vapor retarders, jackets, F23.12 Variable-air-volume (VAV) systems Variable-frequency drives, S45.14 Variable refrigerant flow (VRF), S18.1; S48.1, 14 Variable-speed drives. See Variable-frequency drives S51 VAV. See Variable-air-volume (VAV) systems Vegetables, R37 Vehicles Vena contracta, F3.4 Vending machines, R16.5 Ventilation, F16
803	Ventilators Venting Verification, of airflow modeling, F13.9, 10, 17 Vessels, ammonia refrigeration systems, R2.11 Vibration, F8.17 Viral pathogens, F10.9 Virgin rock temperature (VRT), and heat release rate, A30.3 Viscosity, F3.1 Volatile organic compounds (VOCs), F10.11 Voltage, A57.1 Volume ratio, compressors VRF. See Variable refrigerant flow (VRF) VRT. See Virgin rock temperature (VRT) Walls Warehouses, A3.8 Water Water heaters Water horsepower, pump, S44.7 Water/lithium bromide absorption Water-source heat pump (WSHP), S2.4; S48.11 Water systems, S13
804	Water treatment, A50 Water use and management (See Energy and water use and management) Water vapor control, A45.6 Water vapor permeance/permeability, F26.12, 17, 18 Water vapor retarders, F26.6 Water wells, A35.30 Weather data, F14 Weatherization, F16.18 Welding sheet metal, S19.12 Wet-bulb globe temperature (WBGT), heat stress, A32.5 Wheels, rotary enthalpy, S26.9 Whirlpools and spas Wien’s displacement law, F4.12 Wind. (See also Climatic design information; Weather data) Wind chill index, F9.23 Windows. (See also Fenestration) Wind restraint design, A56.15 Wineries Wireless sensors, A63.7 Wood construction, and moisture, F25.10 Wood products facilities, A27.1 Wood pulp, A27.2 Wood stoves, S34.5 WSHP. See Water-source heat pump (WSHP) Xenon, R47.18 Zeolites, R18.10; R41.9; R47.13; S24.5. (See also Molecular sieves)
806	SI_R22_Errata_print 2019 HVAC Applications 2020 HVAC Systems and Equipment 2021 Fundamentals
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Standard Title	ASHRAE Handbook – Refrigeration (S-I)
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Publication Date	2022

ASHRAE Refrigeration Handbook SI 2022

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