SMACNA EnergySystemsAnalysisandManagementManual 1997 01E
$79.63
Energy Systems Analysis and Management, 1st Edition
| Published By | Publication Date | Number of Pages |
| SMACNA | 1997 | 311 |
Presents an updated level of technical information necessary for energy conservation and retrofits of today’s commercial facilities. Provides building owners, facility managers, contractors, and system designers with the tools needed to evaluate an existing facility for energy savings potential. Items of special interest include performance contracting, CFC refrigeration regulation, and new automation system open protocols. Other topics covered include HVAC heat recovery, energy auditing, operation and maintenance, and indoor air quality.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 3 | FOREWORD |
| 4 | TASK FORCE AND OTHER CONTRIBUTORS |
| 5 | NOTICE TO USERS OF THIS PUBLICATION |
| 6 | TABLE OF CONTENTS |
| 18 | CHAPTER 1 ENERGY CONSERVATION MANAGEMENT |
| 19 | 1.1 ENERGY USE INFLUENCE FACTORS 1.2 HUMAN COMFORT NEEDS |
| 21 | 1.3 ENERGY MANAGEMENT (OPERATION) |
| 22 | 1.4 INITIAL COST VERSUS OPERATING COSTS 1.5 SOLAR ENERGY UTILIZATION 1.6 EVALUATION |
| 24 | 1.7 ENERGY CONSERVATION CHECKLIST |
| 25 | 1.8 SYSTEM MODIFICATIONS 1.9 STRUCTURE MODIFICATIONS |
| 26 | 1.10 THE DESIGN PROCESS 1.11 ENERGY EFFICIENT DESIGN |
| 27 | 1.12 HVAC SYSTEM EVALUATION |
| 29 | CHAPTER 2 AIR SYSTEMS |
| 30 | 2.1 AIR SYSTEM CLASSIFICATIONS 2.2 AIR SYSTEM BENEFITS 2.3 AIR SYSTEM DESIGN BASICS |
| 31 | 2.4 DUCT SYSTEM AIRFLOW |
| 32 | 2.5 TYPES OF AIR SYSTEMS |
| 40 | CHAPTER 3 HVAC SYSTEM FIELD CHECKS |
| 41 | 3.1 INTRODUCTION 3.2 FAN SYSTEMS |
| 45 | CHAPTER 4 HYDRONIC SYSTEMS |
| 46 | 4.1 GENERAL 4.2 TEMPERATURE CLASSIFICATION |
| 47 | 4.3 HYDRONIC PIPING SYSTEMS |
| 49 | 4.4 HYDRONIC TERMINAL UNITS |
| 51 | 4.5 HYDRONIC SYSTEM ENERGY SAVINGS |
| 52 | 4.6 HEAT PUMP SYSTEMS |
| 56 | CHAPTER 5 CONTROL SYSTEMS |
| 57 | 5.1 BASIC CONTROL FUNCTIONS 5.2 LOCAL CONTROLS |
| 59 | 5.3 CENTRAL CONTROLS |
| 60 | 5.4 CONTROL SYSTEM TYPES |
| 61 | 5.5 CONTROL DEVICES |
| 62 | 5.6 EXISTING SYSTEM RETROFIT |
| 67 | 5.7 COMPUTER SYSTEMS |
| 75 | CHAPTER 6 NEW AUTOMATION SYSTEM OPEN PROTOCOLS |
| 76 | 6.1 BACNET PROTOCOL |
| 77 | 6.2 OBJECT PROGRAMMING |
| 78 | 6.3 SERVICES PROGRAMMING 6.4 IS BACNET BACKWARD COMPATIBLE? 6.5 POTENTIAL SYSTEM MAINTENANCE PROBLEMS |
| 80 | CHAPTER 7 DOMESTIC WATER SYSTEMS |
| 81 | 7.1 ENERGY ANALYSIS |
| 82 | 7.2 REDUCED WATER TEMPERATURES 7.3 HOT WATER USAGE |
| 83 | 7.4 SYSTEM THERMAL LOSSES |
| 85 | CHAPTER 8 ELECTRICAL SYSTEMS |
| 86 | 8.1 LIGHTING |
| 92 | 8.2 POWER |
| 94 | 8.3 ELECTRICAL EQUIPMENT |
| 100 | CHAPTER 9 INDOOR AIR QUALITY VS. ENERGY USAGE |
| 101 | 9.1 GENERAL |
| 102 | 9.2 CARBON DIOXIDE CONTROL |
| 104 | CHAPTER 10 THE ENERGY AUDIT |
| 105 | 10.1 OBTAINING INITIAL COOPERATION 10.2 ESTABLISHING AN ENERGY CONSERVATION GOAL |
| 106 | 10.3 THE BUILDING SURVEY |
| 109 | 10.4 THE DATA BASE |
| 111 | 10.5 USING THE AUDIT DATA |
| 117 | CHAPTER 11 ENERGY MANAGEMENT MAINTENANCE AND MONITORING |
| 118 | 11.1 SCHEDULED MAINTENANCE |
| 119 | 11.2 ENERGY CONSERVATION MONITORING 11.3 VERIFICATION PROCEDURES |
| 122 | CHAPTER 12 PERFORMANCE CONTRACTING |
| 124 | 12.1 PLANNING FOR A FINANCED ENERGY PROGRAM |
| 127 | CHAPTER 13 ENERGY ESTIMATING PROCEDURES |
| 128 | 13.1 DEGREE-DAY METHOD |
| 133 | 13.2 ANALYSIS OF EXAMPLE FOR ENERGY CONSERVATION |
| 136 | CHAPTER 14 ECONOMICS OF ENERGY REDUCTION PROJECTS |
| 137 | 14.1 GENERAL |
| 139 | 14.2 COMPUTING FUEL SAVINGS |
| 143 | 14.3 MAKING A SIMPLE CAPITAL INVESTMENT ANALYSIS |
| 145 | 14.4 LIFE-CYCLE COSTING |
| 149 | CHAPTER 15 CFC REFRIGERANT REGULATION |
| 150 | 15.1 WHERE ARE WE NOW? |
| 152 | 15.2 CONCLUSIONS |
| 154 | CHAPTER 16 FUNDAMENTALS OF ENERGY TRANSFER |
| 155 | 16.1 HEATFLOW |
| 160 | 16.2 PSYCHROMETRIC CHARTS |
| 162 | 16.3 USE OF THE PSYCHROMETRIC CHART |
| 168 | 16.4 AIR MIXTURE CONDITION CHANGES |
| 176 | 16.5 OTHER CHARTS |
| 181 | CHAPTER 17 ENERGY RECOVERY SYSTEMS |
| 182 | 17.1 COMFORT-TO-COMFORT |
| 183 | 17.2 PROCESS-TO-COMFORT 17.3 PROCESS-TO-PROCESS |
| 184 | 17.4 ENERGY RECOVERY EQUIPMENT IN GENERAL |
| 185 | 17.5 EXCHANGER CONFIGURATIONS AND DESIGN |
| 186 | 17.6 TYPES OF EXCHANGERS |
| 187 | 17.7 EXCHANGER CHARACTERISTICS |
| 188 | 17.8 EXCHANGER RATINGS AND STANDARDS 17.9 MECHANICS OF HEAT FLOW |
| 190 | 17.10 EFFECTIVENESS |
| 191 | 17.11 EXCHANGER CAPACITY REDUCTION |
| 192 | 17.12 THERMAL TRANSFER FLUIDS |
| 193 | 17.13 HEAT TRANSFER MEDIA EVALUATION 17.14 EQUIPMENT DESIGN |
| 196 | CHAPTER 18 AIRSIDE HEAT EXCHANGERS |
| 197 | 18.1 FIXED PLATE EXCHANGERS |
| 200 | 18.2 ROTARY WHEEL EXCHANGERS |
| 206 | 18.3 HEAT PIPE EXCHANGERS |
| 210 | 18.4 RUN-AROUND COIL EXCHANGERS |
| 215 | CHAPTER 19 MULTIPLE TOWER EXCHANGERS |
| 216 | 19.1 DESCRIPTION 19.2 PRINCIPLES OF OPERATION |
| 217 | 19.3 PERFORMANCE 19.4 APPLICATION |
| 218 | 19.5 CAPACITY CONTROLS |
| 219 | 19.6 MAINTENANCE 19.7 THERMAL TRANSFER FLUID |
| 220 | CHAPTER 20 DRY AIR COOLER EXCHANGERS |
| 221 | 20.1 DESCRIPTIONS |
| 222 | 20.2 THE TRANSFER PROCESS 20.3 CROSS CONTAMINATION |
| 224 | 20.4 INDIRECT/DIRECT EVAPORATIVE COOLING SYSTEMS |
| 227 | CHAPTER 21 OTHER ENERGY SYSTEMS |
| 228 | 21.1 SOLAR SYSTEMS |
| 230 | 21.2 THERMAL STORAGE SYSTEMS |
| 234 | CHAPTER 22 HYDRONIC RECOVERY SYSTEMS |
| 235 | 22.1 TWO-PIPE ENERGY RECOVERY SYSTEMS |
| 236 | 22.2 THREE-PIPE ENERGY RECOVERY SYSTEMS |
| 237 | 22.3 FOUR-PIPE ENERGY RECOVERY SYSTEMS |
| 238 | 22.4 HOT GAS HEAT RECOVERY 22.5 CONDENSATE HEAT RECOVERY |
| 239 | 22.6 WASTE WATER HEAT RECOVERY 22.7 TOTAL ENERGY SYSTEMS |
| 243 | CHAPTER 23 ENERGY RECOVERY SYSTEM INVESTMENT ANALYSIS |
| 244 | 23.1 PARTIAL METHODS OF EVALUATION ENERGY RECOVERY SYSTEM INVESTMENT ANALYSIS |
| 247 | 23.2 COMPREHENSIVE METHODS FOR EVALUATING INVESTMENT ALTERNATIVES |
| 253 | 23.3 SPECIAL FACTORS TO CONSIDER IN INVESTMENT ANALYSIS |
| 257 | 23.4 APPLICATION OF EVALUATION METHODS TO DIFFERENT KINDS OF DECISIONS |
| 259 | 23.5 SUMMARY |
| 266 | GLOSSARY |
| 308 | INDEX |
