Table of Contents

Chapter 1 - Overview
  1.1 Scope and general information
  1.2 History of power system studies
  1.3 Applying power system analysis techniques to
        industrial and commercial power systems
  1.4 Purposes of this Recommended Practice
  1.5 References
Chapter 2 - Applications of power system analysis
  2.1 Introduction
  2.2 Load flow analysis
  2.3 Short-circuit analysis
  2.4 Stability analysis
  2.5 Motor-starting analysis
  2.6 Harmonic analysis
  2.7 Switching transients analysis
  2.8 Reliability analysis
  2.9 Cable ampacity analysis
  2.10 Ground mat analysis
  2.11 Protective device coordination analysis
  2.12 DC auxiliary power system analysis
Chapter 3 - Analytical procedures
  3.1 Introduction
  3.2 Fundamentals
  3.3 Bibliography
Chapter 4 - System modelling
  4.1 Introduction
  4.2 Modelling
  4.3 Review of basics
  4.4 Power network solution
  4.5 Impedance diagram
  4.6 Extent of the model
  4.7 Models of branch elements
  4.8 Power system data development
  4.9 Models of bus elements
  4.10 References
  4.11 Bibliography
Chapter 5 - Computer solutions and systems
  5.1 Introduction
  5.2 Numerical solution techniques
  5.3 Computer systems
  5.4 Bibliography
Chapter 6 - Load flow studies
  6.1 Introduction
  6.2 System representation
  6.3 Input data
  6.4 Load flow solution methods
  6.5 Load flow analysis
  6.6 Load flow study example
  6.7 Load flow programs
  6.8 Conclusions
Chapter 7 - Short-circuit studies
  7.1 Introduction and scope
  7.2 Extent and requirements of short-circuit studies
  7.3 System modelling and computational techniques
  7.4 Fault analysis according to industry standards
  7.5 Factors affecting the accuracy of short-circuit
        studies
  7.6 Computer solutions
  7.7 Example
  7.8 References
  7.9 Bibliography
Chapter 8 - Stability studies
  8.1 Introduction
  8.2 Stability fundamentals
  8.3 Problems caused by instability
  8.4 System disturbances that can cause instability
  8.5 Solutions to stability problems
  8.6 System stability analysis
  8.7 Stability studies of industrial power systems
  8.8 Summary and conclusions
  8.9 Bibliography
Chapter 9 - Motor-starting studies
  9.1 Introduction
  9.2 Need for motor-starting studies
  9.3 Recommendations
  9.4 Types of studies
  9.5 Data requirements
  9.6 Solution procedures and examples
  9.7 Summary
  9.8 References
  9.9 Bibliography
Chapter 10 - Harmonic analysis studies
  10.1 Introduction
  10.2 Background
  10.3 Purpose of harmonic study
  10.4 General theory
  10.5 System modelling
  10.6 Example solutions
  10.7 Remedial measures
  10.8 Harmonic standards
  10.9 References
  10.10 Bibliography
Chapter 11 - Switching transient studies
  11.1 Power system switching transients
  11.2 Switching transient studies
  11.3 Switching transients - field measurements
  11.4 Typical circuit parameters for transient studies
  11.5 References
  11.6 Bibliography
Chapter 12 - Reliability studies
  12.1 Introduction
  12.2 Definitions
  12.3 System reliability indexes
  12.4 Data needed for system reliability evaluations
  12.5 Method for system reliability evaluation
  12.6 References
Chapter 13 - Cable ampacity studies
  13.1 Introduction
  13.2 Heat flow analysis
  13.3 Application of computer program
  13.4 Ampacity adjustment factors
  13.5 Example
  13.6 Conclusion
  13.7 References
  13.8 Bibliography
Chapter 14 - Ground mat studies
  14.1 Introduction
  14.2 Justification for ground mat studies
  14.3 Modelling the human body
  14.4 Traditional analysis of the ground mat
  14.5 Advanced grid modelling
  14.6 Benchmark problems
  14.7 Input/output techniques
  14.8 Sample problem
  14.9 Conclusion
  14.10 Reference
  14.11 Bibliography
Chapter 15 - Coordination studies
  15.1 Introduction
  15.2 Basics of coordination
  15.3 Computer programs for coordination
  15.4 Common structure for computer programs
  15.5 How to make use of coordination software
  15.6 Verifying the results
  15.7 Equipment needs
  15.8 Conclusion
  15.9 Bibliography
Chapter 16 - DC auxiliary power system analysis
  16.1 Introduction
  16.2 Purpose of the recommended practice
  16.3 Application of dc power system analysis
  16.4 Analytical procedures
  16.5 System modelling
  16.6 Load flow/voltage drop studies
  16.7 Short-circuit studies
  16.8 International guidance on dc short-circuit
        calculations
  16.9 Bibliography
Index

Abstract

Provides plant engineers a better understanding of the purpose for and techniques involved in power system studies.

General Product Information

Published
Document Type	Standard
Status	Current
Publisher	Institute of Electrical & Electronics Engineers
Pages
ISBN