Practical Power Distribution for Industry
| Date: 06 May 2011, 20:12
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The book provides technical know-how not covered by most universities and colleges in a subject that is central to the roles of many electrical engineers in industry, focusing on switchgear, power cables, power factor correction, and network studies.
* Learn how to install and maintain electrical power equipment in industrial settings
* Select and specify the right power system at the right price
* Provides the practical essentials for reliable operation of industrial electrical networks - covering switchgear, cabling and power correction factors
Review
"The book provides concise technical details, accompanied by well-written text...this book does gives the reader an excellent overview of the more practical aspects of some medium voltage power distribution components in an electrical system." - IEEE Electrical Insulation Magazine
Contents
Preface
1 Introduction to power distribution
1.1 Introduction
2 Medium-voltage switchgear
2.1 Standards
2.2 Switch board layout
2.3 Ratings
2.4 Types of MV switchgear
2.5 Insulation methods
2.6 Types of closing mechanisms
2.7 Internal arc proofing
2.8 Modern protection relays used with switchgear
3 Power cables
3.1 Introduction
3.2 Paper-insulated lead-covered (PILC) cables
3.3 Cross-linked polyethylene (XLPE) cables
3.4 Elastomeric cables
3.5 Aerial bundled conductors (ABC)
3.6 Overhead aluminum conductors
3.7 Cable selection
3.8 Transport, handling and installation of electric cables
3.9 Paper-insulated and lead-covered (PILC) 6.35/11 kV cables
3.10 Medium-voltage XLPE-Insulated, PVC-Bedded, SWA, PVC-sheathed cables
3.11 Low-voltage PVC- and XLPE-insulated 600/1000 V power cables
4 Compensation
4.1 Introduction
4.2 Series capacitors
4.3 Shunt capacitors
4.4 Shunt reactors
4.5 Synchronous compensators
4.6 Static VAR compensators
4.7 Distribution applications - shunt capacitors
4.8 Caution: effect of shunt capacitors on induction motors
5 Transformer theory
5.1 Transformer theory
5.2 Transformer design applications
5.3 Transformer construction and installation
5.4 Transformer protection
5.5 Relays for protection
6 Grounding, earthing and transient overvoltage protection
6.1 Grounding devices
6.2 Effect of electric shock on human beings
6.3 Surge and transient protection
7 Power system analysis software
7.1 Introduction
7.2 Load flow
7.3 Sizing study
7.4 Fault analysis
7.5 Transient stability
7.6 Fast transients
7.7 Reliability
7.8 The second generation of programs
7.9 Graphics
7.10 Protection
7.11 Other uses for load flow analysis
7.12 Extensions to transient stability analysis
7.13 Voltage collapse
7.14 SCADA
7.15 Power quality
7.16 Finite element analysis
7.17 Earthing
7.18 Other programs
7.19 Further development of programs
7.20 Program suites
7.21 Conclusions
8 New era of power system automation
8.1 Definition of the term
8.2 What is power system automation?
8.3 Power system automation architecture
Appendix
Index
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