Improving the Refrigeration Volume of the ASHRAE Handbook

Table of Contents
Introduction
I. Summary of Recommendations
Keeping the volume more current, using volunteers
New information on critical and current topics
Improving guidance to authors and revisors
Improving usability: Restructuring and Glossary
II. Implementation Plan
1. PDH Credit for Reading, Testing and Commenting on Chapters
2. Create “The Encyclopedia of Refrigeration” in electronic edition
3. Board-level Requests to RSES, RETA IIR and IIAR
4. Allow IIAR and ASHRAE publication without rewriting
5. Allow TC Handbook Subcommittee Chairs to eMail requests
6. Ask local ASHRAE chapters to help
7. New chapter: Introduction to Refrigeration
8. New chapter: Designing for Safe Service
9. Add service safety to other chapters
10. New chapter: CO2 Refrigeration
11. Add CO2 information to other chapters and to Standard 15
12. Service safety - add checklist item to the authors-revisor’s guide
13. Sustainable refrigeration systems - add a defi nition with metrics
14. Improved section and chapter titles, and improved organization
15. New chapter: Glossary of Refrigeration Terms
16. New chapters - Compressors and Condensers
Appendices
A. Workshop Participants
B. Wording and glossary word suggestions
C. Statement of work for the project
D. Chapter reviews
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HOW TO SAVE ENERGY AND MONEY IN REFRIGERATION

1. INTRODUCTION
1.1 Purpose
2. THE REFRIGERATION PROCESS
2.1 The vapour compression cycle
2.2. Reverse Carnot Cycle
2.2.1 Coefficient of Performance
2.3 Theoretical Vapour Compression Cycle
2.3.1 Model Coefficient of Performance
2.3.2 Practical Considerations
2.4 Absorption Cycle
2.5 Special Refrigeration Systems
2.6 Variations on the simple Carnot circuit
2.6.1 Suction/liquid heat exchanger
2.7 Multiple evaporator circuits
2.7.1 Multiple compressor Systems
2.7.2 Cascade Systems
2.7.3 Heat Pump Systems
3. EQUIPMENT Compressors
3.1.1 Types of compressor housing
3.1.2 Hermetic and semi-hermetic compressors
3.1.3 Open compressors
3.1.4 Reciprocating compressors
3.1.5 Screw compressors
3.1.6 Scroll compressors
3.1.7 Compressor performance data
3.1.8 Capacity control
3.2 Evaporators
3.2.1 Direct expansion
3.2.2 Flooded
3.2.3 Oil control in evaporators
3.2.4 Energy efficient operation of evaporators
3.2.5 Defrosting
3.3 Expansion devices
3.3.1 Thermostatic expansion valves
3.3.2 Float valve systems
3.4 Condensers
3.4.1 Air-cooled condensers
3.4.2 Water-cooled condensers
3.4.3 Evaporative condensers
3.4.4 Loss of condenser efficiency due to air in system
4. REFRIGERANTS
4.1 Desirable Characteristics
4.2 Common Refrigerants - Vapour Compression Cycles
4.3 Common Refrigerants - Absorption Cycle
4.4 Brines and Secondary Coolants
5. ENERGY MANAGEMENT OPPORTUNITIES
5.1 Housekeeping Opportunities
5.1.1 General maintenance
5.1.2 Plant operation
5.1.3 Instrumentation
5.1.4 Trouble shooting
5.1.5 Housekeeping Worked Examples
5.2 Low Cost Opportunities
5.2.1 Low Cost Worked Examples
5.3 Retrofit Opportunities
APPENDIX 1: GLOSSARY OF TERMS
APPENDIX 2: ENERGY, VOLUME AND MASS CONVERSION FACTORS
APPENDIX 3: EXAMPLE OF MEASURING COP DIRECTLY
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ELECTRICAL SAFETY HAZARDS HANDBOOK

Introduction
Why is Electrical Safety so Important?
Electricity Basics
Ohm’s Law
Types of Electrical Faults
Overloads
Short Circuits
Overcurrent Protective Devices
Interrupting Rating
Current Limitation
Fuses
Circuit Breakers
Circuit Protection Checklist
History of Electrical Safety
Electrical Safety Organizations
OSHA
The General Duty Clause
OSHA Regulations
NFPA
IEEE
NRTL
NEMA
ANSI
ASTM
NECA
Electrical Safety Codes and Standards
Working on Deenergized Equipment
Establish a Safe Work Condition
Working on Energized Equipment
Who is Qualified?
Energized Electrical Work Permit
Employer and Employee Responsibilities
Arc-Flash and Other Electrical Safety Hazards
Electrical Safety Hazards
Electric Shock
Arc-Flash and Arc Blasts
Arc-Flash Metrics
Arc-Blast Effect
Light and Sound Effects
Electrical Hazard Analysis
Shock Hazard Analysis
Approach Boundaries
Flash Hazard Analysis
Arc-Flash Calculations
Arc-Flash Hazard Calculation Examples
IEEE 1584 Arc-Flash Hazard Calculation
NFPA 70E Table Method
Steps Required to Use the NFPA 70E Table Method
Minimizing Arc-Flash and Other
Electrical Hazards
1. Design a Safer System
2. Use and Upgrade to Current-limiting Overcurrent Protective Devices
3. Implement an Electrical Safety Program
4. Observe Safe Work Practices
5. Use Personal Protective Equipment (PPE)
6. Use Warning Labels
7. Use an Energized Electrical Work Permit
8. Avoid Hazards of Improperly Selected or Maintained Overcurrent Protective Devices
9. Achieve or Increase Selective Coordination
Electrical Safety Summary
Annex A
Electrical Safety Terms and Definitions
Annex B
Electrical Safety Codes and Standards
Annex C
Energized Electrical Work Permit
Annex D
Arc-Flash Calculation Steps
Annex E
Arc Flash Calculator Tables
Annex F
Resources for Electrical Safety
Annex G
References
Annex H
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HVAC Calculations and Duct Sizing

1. Heat Conduction and Thermal Resistance
2. Building Walls
3. Building Attic and Basement
4. Building Heat Loads
5. Psychrometric Chart
6. Air Conditioning Calculations
7. Duct Sizing
8. Ventilation
9. Cooling Load Temperature Difference and Heating Degree Days
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Water Source Heat Pump Design Manual

Table of contents
The decentralized approach
Chapter 1. Design steps
Allowable flow rates for closed system piping
Flow graph for closed system piping
Sizing the cooling coil condensate drain piping
Chapter 2. Boilerless systems (all electric)
Chapter 3. System variations
Chapter 4. Water treatment
Chapter 5. Control of loop water temperatures
Chapter 6. Control of heat pump units
Chapter 7. Miscellaneous design considerations
Chapter 8. Building system design worksheet
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Air-water systems for air conditioning Design manual

Contents
Experience and innovation
Air – water
System overview
Passive cooling systems
Passive chilled beams
Chilled ceiling components and elements
Induction units
Active chilled beams
Multi-service active chilled beams
Under sill induction units
Under floor induction units
Façade ventilation units
Under sill units
Under sill units for projects
Under floor units
Standards and guidelines
Documentation
Project management
References
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Metric Handbook

Table of Contents
Chapter 1 - General Information And Guidance
A. Introduction
B. Metric Products
C. Metric Facts.
1. Length
2. Power
3. Pressure and Stress
D. Applying the Metric System
1. Becoming Familiar with the Size of Metric Units
2. Units of Length
3. Units of Weight
4. Units of Volume
E. Basic Metric
1. Base Units
2. Decimal Prefixes
3. Plane and Solid Angles
4. Derived Units
5. Liter, Hectare, and Metric Ton
F. Metric Rules
1. Rules for Writing Metric Symbols and Names
2. Rules for Writing Numbers
3. Rules for Conversion and Rounding
4. Rules for Linear Measurement (Length)
5. Rules for Area
6. Rules for Volume and Fluid Capacity
G. Conversion Factors for Length, Area, and Volume
H. Estimating Basics
1. Construction Time/Costs
2. Cost
3. Design Costs
4. Estimating Tools
I. Preferred Metric Dimensions in Building Construction
J. Construction Trades
K. Drawing and Specifications Guidance
1. Drawing Scales
2. Metric Units Used on Drawings
3. Drawing Sizes
4. Codes and Standards
5. Submittals
6. Specifications
Chapter 2 - General Information and Guidance
A. Architectural
1. Block
2. Brick
3. Carpet
4. Ceiling Systems
5. Drywall
6. Doors
7. Elevators
8. Glass
9. Lumber
10.Plywood
11.Roofing
12.Sheet Metal
13.Stone
14.Metal Studs
15.Woodwork
B. Civil Engineering
1.Units
2.Rules for Civil Engineering
C. Structural Engineering
1. Units
2. Rules for Structural Engineers
3. Structural Strategies
D. Surveying and Project Layout
E. Materials Guidance (General)
1. Concrete
2. Concrete Pipe
3. Geotechnical
4. Reinforcement
5. Pipe
6. General Fasteners
7. Anchor Bolts
8. Fastener Data
F. Electrical Engineering
1. Units
2. Rules for Electrical Engineering
3. Conversion Factors
4. Conduit
5. Cabling
6. Fiber Optics
7. Lighting Fixtures
G. Mechanical Engineering
1. Units
2. Rules for Mechanical Engineering
3. General Guidelines
4. Conversion
5. Heating, Ventilating, and Air Conditioning
6. Pipes
7. Schedules
8. Temperature
Glossary of Terms Appendix 1
Conversion Tables Appendix 2
Project Plans (Illustrative Examples) Appendix 3
Road Design Data
Garage Elevation
Guardrail
Renovation Plan
Restroom Plan
Window
Door Jamb
Foundation Wall
Base Plate
Air Distribution
Reflected Ceiling
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HVAC-CHILLERS

C O N T E N T S
1 INTRODUCTION
1.1 REFRIGERATION & AIR-CONDITIONING
1.2 THE NEED FOR RADICAL THINKING
2 REFRIGERATION & AIR CONDITIONING SYSTEMS
2.1 INTRODUCTION
2.2 REFRIGERATION SYSTEM EFFICIENCY
2.3 VAPOUR COMPRESSION SYSTEMS
2.3.1 Operating Principle
2.3.2 Refrigerants: Ozone Depletion and Global Warming
2.3.3 Types of Compressor & Capacity Control
2.3.4 Evaporators
2.3.5 Condensers
2.3.6 Expansion Valves
2.4 SUB-COOLING
2.5 SUPERHEATING
2.5.1 Secondary Coolants
2.5.2 Specific Power Consumption of Vapour Compression Systems
2.6 VAPOUR ABSORPTION REFRIGERATION SYSTEM
2.6.1 Operating Principle
2.7 CAPACITY CONTROL
2.7.1 Specific Fuel Consumption Of Vapour Absorption Systems
2.8 COOLING TOWERS
3 STRATEGIES AND OPPORTUNITIES FOR ENERGY SAVING
3.1 MINIMISING REFRIGERATION & AIR-CONDITIONING
3.2 OPERATING AT HIGHER EVAPORATOR TEMPERATURE
3.3 ACCURATE MEASUREMENT AND CONTROL OF TEMPERATURE
3.4 REDUCTION IN HEAT LOADS
3.5 MINIMISING HEAT INGRESS
3.6 REDUCING VENTILATION HEAT LOAD
3.7 USING FAVOURABLE AMBIENT CONDITIONS
3.8 USE EVAPORATORS AND CONDENSERS WITH HIGHER HEAT TRANSFER EFFICACY
3.9 ENERGY SAVING OPPORTUNITIES IN NORMAL OPERATION
3.10 MAINTENANCE TO ENSURE ENERGY EFFICIENT OPERATION
3.11 ENERGY SAVING IN LOW RELATIVE HUMIDITY AIR CONDITIONING
3.12 DESUPERHEATER FOR RECOVERING CONDENSER WASTE HEAT
3.13 INTER-FUEL SUBSTITUTION: ELECTRICITY SAVINGS BY USE OF ABSORPTION CHILLERS
3.14 GENERAL TIPS TO SAVE ENERGY IN COOLING TOWERS
4 THERMAL STORAGE FOR MAXIMUM DEMAND CONTROL
4.1 INTRODUCTION
4.2 TECHNOLOGIES
5 SYSTEM DESIGN AND EQUIPMENT SELECTION: ENERGY ISSUES
5.1 INTRODUCTION
5.2 IMPORTANT ISSUES
5.2.1 Energy Cost
5.2.2 Refrigeration Load Estimation
5.2.3 System Design
5.2.4 Minimise Heat Ingress – Select Right Thermal Insulation
5.2.5 Sizing & Selecting the Right Refrigeration Machine
5.2.6 Controls for Energy Efficiency
6 CASE STUDIES
6.1 CASE STUDY 1: OPERATIONAL SAVING – CORRECT REFRIGERANT CHARGING
6.2 CASE STUDY 2: MATCHING COMPRESSOR CAPACITY TO ACTUAL LOAD BY SPEED VARIATION
6.3 CASE STUDY 3: REPLACEMENT OF INEFFICIENT CHILLER
6.4 CASE STUDY 4: INNOVATIVE RETROFIT PRECISION TEMPERATURE CONTROLLER
6.5 CASE STUDY 5: ELIMINATION OF RE-HEAT IN LOW RELATIVE HUMIDITY AIR CONDITIONING
6.6 CASE STUDY 6: LARGER HEAT EXCHANGERS IMPROVE COP
6.7 CASE STUDY 7: ELECTRONIC EXPANSION VALVES SAVE ENERGY
6.8 CASE STUDY 8: PRE-COOLING OF AUDITORIUM VENTILATION AIR
6.9 CASE STUDY 9: ENERGY SAVING IN FRUIT COLD STORES
6.10 CASE STUDY 10: TRI-FUEL CHILLER OPTIONS SAVES COST
7 REFERENCES
8 CONVERSION TABLES
LIST OF FIGURES
Figure 2-1: Schematic Diagram of Vapor Compression System
Figure 2-2: Pressure – Enthalpy Diagram for Vapour Compression System
Figure 2-3: Roller Compressor
Figure 2-4: Rotary Sliding Vane Compressor
Figure 2-5: Reciprocating Compressor
Figure 2-6: Recips - Power at Part Load Operation
Figure 2-7: Screw Compressor
Figure 2-8: Screw - Power at Part Loads
Figure 2-9: Scroll Compressor
Figure 2-10: Centrifugal Compressor
Figure 2-11: Centrifugals – Power at Part Loads
Figure 2-12: Air Handling Unit for Cooling Air
Figure 2-13: Shell & Tube Heat Exchangers
Figure 2-14: Plate Heat Exchanger
Figure 2-15: Grooved Tubes to Increase Surface Area
Figure 2-16: Tube Inserts to Increase Turbulence
Figure 2-17: Some Commonly Used Condensers
Figure 2-18: Schematic Diagram of Superheat Sensing Expansion Valve
Figure 2-19: Anti-freeze Solutions – Change in Freezing Point with Concentration
Figure 2-20: Schematic Diagram of Single Effect Absorption Chiller
Figure 2-21: Schematic Diagram of Double Effect Absorption Chiller
Figure 2-22: Schematic Diagram of Triple Effect Absorption Chiller
Figure 2-23: Counter-flow Induced Draft
Figure 2-24: Cross-flow Induced Draft
Figure 2-25: Variation of Cooling Water Leaving Temperature with Variation in Ambient WBT
Figure 3-1: Building Structure Cooling: Grid of Pipes on the Roof and Floor
Figure 3-2High Speed Door
Figure 3-3: Dock Leveler helps seal back of truck with building
Figure 3-4: Example of good thermal insulation in a chilled water system
Figure 3-5: Typical Modern Building with Glass Façade
Figure 3-6: Heat Pipes
Figure 3-7: Heat Wheel
LIST OF TABLES
Table 2-1: Summary of Status of Some Refrigerant Groups
Table 3-1: Reduction in Roof Underside Temperature due to Structure Cooling
Table 3-2: Effect of Evaporator and Condenser Temperatures on Refrigeration Machine Performance
Table 3-3: Heat Ingress into Air-conditioned Space through Open Doors
Table 3-4: Properties of Different Types of Window Glass
Table 5-1: Thumb Rules for Calculating Comfort Air-conditioning Load
Table 5-2: Thermal Conductivities of Some Insulating Materials
Table 5-3: Insulation thickness for Refrigeration Piping
Table 5-4: Comparison of Likely Energy Consumption for a Typical 100 TR Air-Conditioning System
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Manual For Refrigeration Servicing Technicians

Introduction
Welcome to the Manual for Refrigeration Servicing Technicians. It is an e-book for people who are involved in training and organization of service and maintenance of refrigeration and air-conditioning (RAC) systems. It is aimed at people who are:
• Service and maintenance technicians
• Private company service/maintenance managers
• Private company managers involved in developing their service and maintenance policy
• Private company technicians trainers
• Educational establishment RAC trainers and course developers
• National Ozone Units (NOUs) responsible for servicing and maintenance regulations and programmes related to the Montreal Protocol
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