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IEEE 493 : 2007

Withdrawn

Withdrawn

A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.

DESIGN OF RELIABLE INDUSTRIAL AND COMMERCIAL POWER SYSTEMS

Withdrawn date

07-16-2024

Published date

06-25-2007

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Chapter 1 - Introduction
   1.1 Objectives and scope
   1.2 Summary of contents of each chapter
   1.3 How to use this book
   1.4 Normative references
Chapter 2 - Basic concepts of reliability
   2.1 Introduction
   2.2 Definitions
   2.3 Calculation reference
   2.4 Acronyms and abbreviations
   2.5 Review of basic probability
   2.6 Reliability and availability
   2.7 Defining frequency and duration of outages and
        interruptions, lambda, MTBF
   2.8 Probability distributions
   2.9 Methods of reliability and availability analysis
   2.10 Performing reliability and availability analyses
   2.11 Bibliography
Chapter 3 - Planning and design
   3.1 Introduction
   3.2 Fundamentals of power system reliability evaluation
   3.3 Examples of reliability and availability analysis of
        common low-voltage industrial power distribution systems
   3.4 Cost of power outages
   3.5 IEEE Gold Book Standard Network
   3.6 Normative references
   3.7 Biography
Chapter 4 - Evaluating and improving the reliability of an
            existing electrical system
   4.1 Introduction
   4.2 Evaluation methodology
   4.3 Utility supply availability
   4.4 Configuration
   4.5 Assessing control and protection
   4.6 Physical assessment
   4.7 Operations and maintenance
   4.8 Other vulnerable areas
   4.9 Conclusion
   4.10 Normative references
   4.11 Bibliography
Chapter 5 - Preventive maintenance
   5.1 Introduction
   5.2 Relationship of maintenance practice and equipment failure
   5.3 Equipment preventive maintenance
   5.4 Design for preventive maintenance
   5.5 Reliability centered maintenance
   5.6 Relationship of RCM to other disciplines
   5.7 RCM implementation plan
   5.8 Data collection requirements
   5.9 Bibliography
Chapter 6 - Emergency and standby power
   6.1 Introduction
   6.2 Emergency and standby power supply types
   6.3 Conclusions
   6.4 Normative references
Chapter 7 - Voltage sag analysis
   7.1 Introduction
   7.2 Voltage sag characteristics and reporting
   7.3 Equipment susceptibility to voltage sags
   7.4 Line faults-A major cause for voltage sags
   7.5 Voltage sag predictions
   7.6 Methods of stochastic prediction of voltage sags
   7.7 Examples for rectangular sag calculations
   7.8 Nonrectangular sags
   7.9 Development of voltage sag coordination charts
   7.11 Economic costs of voltage sags
   7.12 Conclusions and future work
   7.13 Normative references
   7.14 Bibliography
Chapter 8 - 7 X 24 continuous power facilities
   8.1 Introduction
   8.2 Special equipment to support continuous operation
   8.3 Defining failure in a 7 X 24 facility
   8.4 Reliability and availability as tools in evaluation
        of critical facilities
   8.5 Critical distribution system configurations
   8.6 Reliability and availability of critical distribution
        system configurations
   8.7 Normative references
   8.8 Bibliography
Chapter 9 - Reliability and maintainability verification
   9.1 Introduction
   9.2 Definition of success ratio
   9.3 Acceptance sampling plan
   9.4 Minimizing manufacturer and customer risks
   9.5 Sequential testing plan
   9.6 Development of a sequential testing plan
   9.7 Compliance sequential test acceptance limits
   9.8 Compliance sequential test rejection limits
   9.9 Case study
   9.10 Discussion of sequential tests
   9.11 Conclusion
   9.12 Normative references
   9.13 Bibliography
Chapter 10 - Summary of equipment reliability data
   10.1 Introduction
   10.2 Part 1: Mechanical and electrical equipment reliability
        and availability data collection conducted between 1990
        and 1993
   10.3 Part 2: Equipment reliability surveys (1976-1989)
   10.4 Part 3: Equipment reliability surveys conducted prior to 1976
   10.5 Bibliography
Chapter 11 - Data collection
   11.1 Data collection
   11.2 Facility identification data
   11.3 Facility one-line drawings
   11.4 Nameplate information
   11.5 Critical equipment designation and sparing
   11.6 Maintenance data
   11.7 Data forms
Annex 11A - Data collection forms
Annexes A-Q
Index

The objective of this book is to present the fundamentals of reliability analysis applied to the planning and design of industrial and commercial electric power distribution systems.

DevelopmentNote
Supersedes IEEE DRAFT 493. (09/2007)
DocumentType
Standard
PublisherName
Institute of Electrical & Electronics Engineers
Status
Withdrawn
Supersedes

IEEE 141 : 1993 IEEE Recommended Practice for Electric Power Distribution for Industrial Plants
IEEE 902-1998 IEEE Guide for Maintenance, Operation, and Safety of Industrial and Commercial Power Systems (Yellow Book)
IEEE 3007.1 : 2010 RECOMMENDED PRACTICE FOR THE OPERATION AND MANAGEMENT OF INDUSTRIAL AND COMMERCIAL POWER SYSTEMS
IEEE 1240-2000 IEEE Guide for the Evaluation of the Reliability of HVDC Converter Stations
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IEEE 1242-1999 IEEE Guide for Specifying and Selecting Power, Control, and Special-Purpose Cable for Petroleum and Chemical Plants
IEEE 1668-2014 IEEE Trial-Use Recommended Practice for Voltage Sag and Short Interruption Ride-Through Testing for End-Use Electrical Equipment Rated Less than 1000 V
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IEEE 3006.9-2013 IEEE Recommended Practice for Collecting Data for Use in Reliability, Availability, and Maintainability Assessments of Industrial and Commercial Power Systems
IEEE 3006.2-2016 IEEE Recommended Practice for Evaluating the Reliability of Existing Industrial and Commercial Power Systems
API 540:1999 ELECTRICAL INSTALLATIONS IN PETROLEUM PROCESSING PLANTS
IEEE 242-2001 IEEE Recommended Practice for Protection and Coordination of Industrial and Commercial Power Systems (IEEE Buff Book)
IEEE 241 : 1990 ELECTRIC POWER SYSTEMS IN COMMERCIAL BUILDINGS
IEEE 551 : 2006 CALCULATING SHORT-CIRCUIT CURRENTS IN INDUSTRIAL AND COMMERCIAL POWER SYSTEMS
IEEE 1826-2012 IEEE Standard for Power Electronics Open System Interfaces in Zonal Electrical Distribution Systems Rated Above 100 kW
IEEE 1623-2004 IEEE Guide for the Functional Specification of Medium Voltage (1 kV - 35 kV) Electronic Shunt Devices for Dynamic Voltage Compensation
IEEE 2030.2-2015 IEEE Guide for the Interoperability of Energy Storage Systems Integrated with the Electric Power Infrastructure
PIP ELEGL03 : 2016 GUIDELINES FOR POWER SYSTEMS ANALYSIS

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