Interior Electrical Systems
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file : pdf, 1.78 mb, 279 pages download : http://artikel-software.com/blog toc 1. general 1-1 1-2 1-3 1-4 1-5 1-6 1-7
purpose scope references codes and standards symbols applicability 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 breakers
power distribution and utilization�switchgear, load centers, and
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 6-1 6-2 6-3 6-4 6-5 6-6
power distribution and utilization�raceway and wiring
raceway criteria wiring system criteria sizing wiring systems for energy savings convenience outlets and receptacles wiring for temporary power and lighting acceptance testing of wiring systems
chapter 7 7-1 7-2 7-3
power distribution and utilization�motors and motor control circuits
basic motor criteria motor control circuits 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 11-2
introduction 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 16-2 16-3 16-4
introduction army design criteria navy design criteria air force design criteria
chapter 17 auxiliary systems 17-1 17-2 17-3 17-4 17-5
fire alarm and detection systems security systems television systems clock systems energy management and control systems
chapter 18 facility-specific design criteria 18-1 18-2 18-3 18-4 18-5 18-6 18-7
medical facilities power distribution for aircraft hangars (shelters) high-altitude electromagnetic pulse (hemp) and tempest protection seismically qualified designs tropical engineering arctic engineering general facility types
purpose scope references codes and standards symbols applicability 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 breakers
power distribution and utilization�switchgear, load centers, and
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 6-1 6-2 6-3 6-4 6-5 6-6
power distribution and utilization�raceway and wiring
raceway criteria wiring system criteria sizing wiring systems for energy savings convenience outlets and receptacles wiring for temporary power and lighting acceptance testing of wiring systems
chapter 7 7-1 7-2 7-3
power distribution and utilization�motors and motor control circuits
basic motor criteria motor control circuits 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 11-2
introduction 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 16-2 16-3 16-4
introduction army design criteria navy design criteria air force design criteria
chapter 17 auxiliary systems 17-1 17-2 17-3 17-4 17-5
fire alarm and detection systems security systems television systems clock systems energy management and control systems
chapter 18 facility-specific design criteria 18-1 18-2 18-3 18-4 18-5 18-6 18-7
medical facilities power distribution for aircraft hangars (shelters) high-altitude electromagnetic pulse (hemp) and tempest protection seismically qualified designs tropical engineering arctic engineering general facility types
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