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Interior Electrical Systems

File Type:- pdf


File Size:- 1.78 MB


Pages:- 279 pages




Contents:-



  • 1. General

  • 1-1 PURPOSE


    1-2 SCOPE


    1-3 REFERENCES


    1-4 CODES AND STANDARDS


    1-5 SYMBOLS


    1-6 APPLICABILITY


    1-7 MANUAL CONTENT AND ORGANIZATION

  • PRELIMINARY AND DETAILED DESIGN ANALYSIS


    2-1 PRELIMINARY DESIGN


    2-1.1 Principal Points of Contact


    2-1.2 Preliminary Design Guidance for Interior Electrical Systems


    2-1.3 Unified Facilities Guide Specifications


    2-2 ELECTRICAL LOAD CRITERIA


    2-3 OVERVIEW OF DETAILED ANALYSIS CRITERIA


    2-4 SHORT CIRCUIT ANALYSIS


    2-4.1 Analysis and Equipment Criteria


    2-4.2 Short Circuit Sources


    2-4.3 Symmetrical Versus Asymmetrical Current


    2-4.4 Short Circuit Calculations


    2-5 POWER FLOW ANALYSIS


    2-6 VOLTAGE DROP ANALYSIS


    2-6.1 Voltage Drop Calculations


    2-6.2 Motor Starting Studies


    2-7 ELECTRICAL COORDINATION


    2-8 POWER QUALITY AND HARMONIC DISTORTION


    2-9 LIGHTING


    2-10 ENERGY ANALYSIS


    2-10.1 Overview


    2-10.2 New Facility Criteria


    2-10.3 Existing Facilities


    2-10.4 Energy Efficiency Design Opportunities in the Electrical System


    2-11 LIFE-CYCLE COST ANALYSIS


    2-12 ELECTRICAL DRAWINGS


    2-12.1 Introduction


    2-12.2 One-Line Diagrams


    2-12.3 Switchgear Lineups


    2-12.4 MCC Layouts


    2-12.5 Grounding


    2-12.6 Control Panel Wiring Diagrams


    2-12.7 Control Schematics


    2-12.8 Miscellaneous Interconnection Diagrams


    2-12.9 Equipment Layouts with Conduit or Cable Tray


    2-12.10 Panel Schedules


    2-12.11 Lighting and Receptacle Layouts


    2-12.12 Motor List


    2-12.13 Conduit or Cable Schedule

  • GENERAL POWER SYSTEM CRITERIA


    3-1 CHARACTERISTICS


    3-1.1 Voltage


    3-1.2 Frequency


    3-1.3 Power Factor


    3-1.4 Neutral Conductor Grounding


    3-2 NORMAL POWER SOURCE


    3-3 ALTERNATE AND BACKUP POWER SOURCE


    3-4 SERVICES

  • POWER DISTRIBUTION AND UTILIZATION-TRANSFORMERS


    4-1 RATINGS


    4-1.1 Introduction


    4-1.2 Voltage and Current


    4-1.3 Temperature and kVA


    4-1.4 Impedance


    4-1.5 Number of Phases


    4-1.6 Transformer Taps


    4-1.7 Noise


    4-1.8 Basic Impulse Insulation Levels (BILs)


    4-2 LOW VOLTAGE TRANSFORMERS


    4-3 MEDIUM VOLTAGE TRANSFORMERS


    4-4 OTHER TRANSFORMERS


    4-4.1 Isolation Transformers


    4-4.2 Buck-Boost Transformers


    4-4.3 K-Factor Transformers


    4-4.4 Specialty Transformers


    4-5 TRANSFORMER INSTALLATION CRITERIA


    4-5.1 Introduction


    4-5.2 Dry-Type Transformers


    4-5.3 Less-Flammable, Liquid-Insulated, and Oil-Insulated Transformers


    4-5.4 Fire Protection Criteria


    4-6 TRANSFORMER SIZING


    4-7 INFORMATION SOURCES

  • CHAPTER 5 POWER DISTRIBUTION AND UTILIZATION-SWITCHGEAR, LOAD CENTERS, AND BREAKERS

  • 5-1 SERVICE ENTRANCE


    5-2 SWITCHGEAR AND SWITCHBOARDS GENERAL CRITERIA


    5-3 HIGH VOLTAGE SWITCHGEAR


    5-4 MEDIUM VOLTAGE SWITCHGEAR


    5-4.1 Ratings


    5-4.2 Low Voltage Conductors in Medium Voltage Switchgear


    5-5 LOW VOLTAGE BREAKERS AND PANELS


    5-6 MOTOR CONTROL CENTERS


    5-7 DISCONNECT SWITCHES


    5-8 CIRCUIT LOCKOUT REQUIREMENTS


    5-9 INFORMATION SOURCES

  • CHAPTER 6 POWER DISTRIBUTION AND UTILIZATION-RACEWAY AND WIRING

  • 6-1 RACEWAY CRITERIA


    6-2 WIRING SYSTEM CRITERIA


    6-3 SIZING WIRING SYSTEMS FOR ENERGY SAVINGS


    6-4 CONVENIENCE OUTLETS AND RECEPTACLES


    6-5 WIRING FOR TEMPORARY POWER AND LIGHTING


    6-6 ACCEPTANCE TESTING OF WIRING SYSTEMS

  • CHAPTER 7 POWER DISTRIBUTION AND UTILIZATION-MOTORS AND MOTOR CONTROL CIRCUITS

  • 7-1 BASIC MOTOR CRITERIA


    7-2 MOTOR CONTROL CIRCUITS


    7-3 ADJUSTABLE SPEED DRIVES

  • CHAPTER 8 POWER DISTRIBUTION AND UTILIZATION-OTHER DESIGN CRITERIA

  • 8-1 ELECTRICAL EQUIPMENT CLEARANCES AND GUARDS


    8-1.1 Background


    8-1.2 Equipment Rated 600 Volts and Lower


    8-1.3 Equipment Rated Above 600 Volts


    8-2 ENCLOSURES


    8-3 HAZARDOUS LOCATIONS


    8-4 400-HERTZ DISTRIBUTION SYSTEMS


    8-5 METERING


    8-6 POWER FACTOR CORRECTION

  • CHAPTER 9 ELECTRICAL SYSTEM PROTECTION AND COORDINATION

  • 9-1 PROTECTION SYSTEM DESIGN


    9-2 ELECTRICAL COORDINATION ANALYSIS CRITERIA


    9-2.1 Introduction


    9-2.2 Coordination Study Description


    9-2.3 Coordination Time Intervals


    9-2.4 Pickup Current


    9-2.5 Coordination Curves


    9-2.6 Coordination Analysis


    9-2.7 Coordination Study Report


    9-3 PROTECTIVE RELAYS


    9-4 INSTRUMENT TRANSFORMERS


    9-4.1 Background


    9-4.2 Current Transformers


    9-4.3 Potential Transformers


    9-5 FUSES


    9-6 OVERLOAD RELAYS


    9-7 CIRCUIT BREAKERS


    9-8 PROTECTIVE DEVICE DESIGNATIONS


    9-9 INFORMATION SOURCES

  • CHAPTER 10 GROUNDING, BONDING, AND LIGHTNING PROTECTION

  • 10-1 INTRODUCTION


    10-2 NEC GROUNDING AND BONDING REQUIREMENTS


    10-3 STATIC PROTECTION


    10-4 COMMUNICATIONS SYSTEMS GROUNDING AND BONDING


    10-4.1 Introduction


    10-4.2 Connection to the Grounding Electrode


    10-4.3 Commercial Building Grounding and Bonding Requirements for Telecommunications


    10-5 LIGHTNING PROTECTION


    10-6 INFORMATION SOURCES

  • CHAPTER 11 SURGE PROTECTION

  • 11-1 INTRODUCTION


    11-2 SURGE PROTECTION DESIGN


    11-2.1 Parallel Versus Series Approach


    11-2.2 Multiple Layer Protection Design


    11-3 INSTALLATION CRITERIA


    11-3.1 Minimizing Lead Length for Parallel Surge Protectors


    11-3.2 Breaker Connection


    11-3.3 Grounding


    11-3.4 Acceptance Tests


    11-3.5 Periodic Maintenance


    11-4 SURGE PROTECTION FOR COMMUNICATIONS AND RELATED SYSTEMS

  • CHAPTER 12 POWER SYSTEM QUALITY

  • 12-1 INTRODUCTION


    12-2 UNBALANCED VOLTAGES


    12-3 HARMONIC DISTORTION EVALUATION


    12-4 HARMONIC CURRENT EFFECTS ON TRANSFORMERS


    12-5 POWER QUALITY DESIGN


    12-6 NONLINEAR LOAD DESIGN CONSIDERATIONS


    12-7 NEUTRAL CIRCUIT SIZING FOR NONLINEAR LOADS


    12-7.1 Potential Neutral Current Magnitudes


    12-7.2 Installation Design Criteria


    12-8 INFORMATION SOURCES

  • CHAPTER 13 EMERGENCY AND STANDBY POWER SYSTEMS

  • 13-1 ESTABLISHING THE NEED FOR BACKUP POWER


    13-2 CLASSIFYING EMERGENCY POWER LOADS


    13-3 ENGINE GENERATORS


    13-4 UPS SYSTEMS


    13-4.1 Introduction


    13-4.2 Selection and Performance


    13-4.3 Sizing


    13-4.4 Selection of a Large UPS System or Multiple Smaller UPS Systems

  • 13-4.5 Design Criteria


    13-4.6 Site Survey for an Installation


    13-5 AUTOMATIC TRANSFER EQUIPMENT


    13-5.1 Introduction


    13-5.2 Transfer Methods


    13-5.3 Design Considerations


    13-5.4 Static Transfer Switches


    13-5.5 Sizing


    13-5.6 Effect of Motor Loads


    13-5.7 Maintaining Ground Fault Protection


    13-5.8 Additional System Design Considerations


    13-5.9 Information Sources

  • CHAPTER 14 STATIONARY BATTERY SYSTEMS

  • 14-1 STATIONARY BATTERIES


    14-1.1 Selection


    14-1.2 Battery Areas and Battery Racks


    14-1.3 Installation Design Considerations


    14-2 BATTERY CHARGERS


    14-3 BATTERY PROTECTION

  • CHAPTER 15 LIGHTING

  • 15-1 LIGHTING DESIGN CRITERIA

  • CHAPTER 16 COMMUNICATIONS AND INFORMATION SYSTEMS

  • 16-1 INTRODUCTION


    16-2 ARMY DESIGN CRITERIA


    16-3 NAVY DESIGN CRITERIA


    16-4 AIR FORCE DESIGN CRITERIA

  • CHAPTER 17 AUXILIARY SYSTEMS

  • 17-1 FIRE ALARM AND DETECTION SYSTEMS


    17-2 SECURITY SYSTEMS


    17-3 TELEVISION SYSTEMS


    17-4 CLOCK SYSTEMS


    17-5 ENERGY MANAGEMENT AND CONTROL SYSTEMS

  • CHAPTER 18 FACILITY-SPECIFIC DESIGN CRITERIA

  • 18-1 MEDICAL FACILITIES


    18-2 POWER DISTRIBUTION FOR AIRCRAFT HANGARS (SHELTERS)


    18-3 HIGH-ALTITUDE ELECTROMAGNETIC PULSE (HEMP) AND TEMPEST PROTECTION


    18-4 SEISMICALLY QUALIFIED DESIGNS


    18-5 TROPICAL ENGINEERING


    18-6 ARCTIC ENGINEERING


    18-7 GENERAL FACILITY TYPES

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