Relevant Characteristics of Power Lines Passing through Urban Areas
- 1st Edition - January 11, 2022
- Imprint: Academic Press
- Author: Ljubivoje M. Popovic
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 9 1 1 3 6 - 8
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 9 1 4 0 6 - 2
Relevant Characteristics of Power Lines Passing through Urban Areas covers a variety of problems in electric-power delivery that were considered for a long time in professio… Read more
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Request a sales quoteRelevant Characteristics of Power Lines Passing through Urban Areas covers a variety of problems in electric-power delivery that were considered for a long time in professional and scientific circles unsolvable. Taking into account the influence of all surrounding metal installations on the relevant characteristics of HV and EHV lines passing through urban and/or suburban areas, this reference provides safe and economical solutions on how to check and achieve prescribed safety conditions, determine the dangerous and harmful inductive influence of HV and EHV lines, enable compensation of deficiency for all unknowns, understand relevant data concerning surrounding metal installations, and more.
This book is necessary for properly dimensioning cable systems, considering the existing underground structures near substations and providing engineers with the necessary information they need to design normal operations and determine fault events.
- Includes methodologies that enable solutions for several types of problems in electric-power delivery that were previously unsolvable
- Defines specific field measurements by guiding the development of corresponding analytical procedures
- Showcases a clear scope for the application for HV and EHV distribution networks
Electrical power engineers working on designing HV substation, HV and EHV overhead and cable lines, as well as engineers working as a designer of different metal installations typical for urban areas. University teachers and all other electrical and electronics, power, and systems engineers
INTRODUCTION
References
Chapter 1. CALCULATED REDUCTION FACTOR OF FEEDING CABLE LINES
1.1 Introduction
1.2 Definition and Practical Significance
1.3. Developed Analytical Method
1.4 Quantitative
Chapter 2. ACTUAL REDUCTION FACTOR OF CABLE FEEDING LINES
2.1 Introduction
2.2 Cable Lines with no Applied Cross-Bonding
2.3 Cable Lines with Applied Cross-Bonding
2.4 Overhead Distribution Line
2.5 Theoretical Foundations of the Presented Solution
2.6 Quantitative Analysis and General Remarks
2.7 Application of the Presented Methodology References
Chapter 3. REDUCTION FACTOR OF LINES CONSISTING OF ONE OVERHEAD AND ONE CABLE SECTION
3.1. Introduction
3.2 Calculated Reduction Factor of a Line Consisting of a Cable and an Overhead Section
3.4 Quantitative Analysis
Chapter 4. MEASURES FOR REDUCTION OF A CABLE LINE REDUCTION FACTOR
4.1 Substations Supplied by Overhead Lines
4.2 HV Substations Supplied by Cable Lines
4.3 Actual Reduction Factor of the Considered Lines
4.4. Quantitative Analysis and General Observations
Chapter 5. ACTUAL GROUNDING SYSTEM IMPEDANCE OF SUPPLIED SUBSTATIONS
5.1 Introduction
5.2 Problem Description
5.3 Relevant Parameters of the Introduced Equivalent Sheath
5.4 Actual Impedance of the Tested Grounding System
5.5. Preliminary Estimation of the Safety Conditions within and in the Vicinity of a Supplied Substation
5.6. General Observations References
Chapter 6. INDUCTIVE INFLUENCE OF HV AND EHV LINES
6.1 Inductive Influence of HV or EHV Line during a Ground Fault
6.2 Installation Laid along Whole HV or EHV Cable Line
6.3 Inductive Influence Along any Section of an HV or EHV Cable Line 6.3.1 Critical Ground Fault Position 6.4 Necessary On-Site Measurements and Resulting Screening Factor
6.5 Quantitative Analysis
6.6 General Observations References
Chapter 7. ACTUAL TRANSFER CAPACITY OF HV AND EHV LINES
7.1 Introduction
7.2 Complete Equivalent Circuit of a Cable Line
7.3 The introduced Equivalent Conductor
7.4. Quantitative Analysis
7.5. General Observations
References
References
Chapter 1. CALCULATED REDUCTION FACTOR OF FEEDING CABLE LINES
1.1 Introduction
1.2 Definition and Practical Significance
1.3. Developed Analytical Method
1.4 Quantitative
Chapter 2. ACTUAL REDUCTION FACTOR OF CABLE FEEDING LINES
2.1 Introduction
2.2 Cable Lines with no Applied Cross-Bonding
2.3 Cable Lines with Applied Cross-Bonding
2.4 Overhead Distribution Line
2.5 Theoretical Foundations of the Presented Solution
2.6 Quantitative Analysis and General Remarks
2.7 Application of the Presented Methodology References
Chapter 3. REDUCTION FACTOR OF LINES CONSISTING OF ONE OVERHEAD AND ONE CABLE SECTION
3.1. Introduction
3.2 Calculated Reduction Factor of a Line Consisting of a Cable and an Overhead Section
3.4 Quantitative Analysis
Chapter 4. MEASURES FOR REDUCTION OF A CABLE LINE REDUCTION FACTOR
4.1 Substations Supplied by Overhead Lines
4.2 HV Substations Supplied by Cable Lines
4.3 Actual Reduction Factor of the Considered Lines
4.4. Quantitative Analysis and General Observations
Chapter 5. ACTUAL GROUNDING SYSTEM IMPEDANCE OF SUPPLIED SUBSTATIONS
5.1 Introduction
5.2 Problem Description
5.3 Relevant Parameters of the Introduced Equivalent Sheath
5.4 Actual Impedance of the Tested Grounding System
5.5. Preliminary Estimation of the Safety Conditions within and in the Vicinity of a Supplied Substation
5.6. General Observations References
Chapter 6. INDUCTIVE INFLUENCE OF HV AND EHV LINES
6.1 Inductive Influence of HV or EHV Line during a Ground Fault
6.2 Installation Laid along Whole HV or EHV Cable Line
6.3 Inductive Influence Along any Section of an HV or EHV Cable Line 6.3.1 Critical Ground Fault Position 6.4 Necessary On-Site Measurements and Resulting Screening Factor
6.5 Quantitative Analysis
6.6 General Observations References
Chapter 7. ACTUAL TRANSFER CAPACITY OF HV AND EHV LINES
7.1 Introduction
7.2 Complete Equivalent Circuit of a Cable Line
7.3 The introduced Equivalent Conductor
7.4. Quantitative Analysis
7.5. General Observations
References
- Edition: 1
- Published: January 11, 2022
- No. of pages (Paperback): 246
- Imprint: Academic Press
- Language: English
- Paperback ISBN: 9780323911368
- eBook ISBN: 9780323914062
LP
Ljubivoje M. Popovic
Ljubivoje M. Popović is a retired associate professor at the School of Electrical Engineering, University of Belgrade, and in 2010, he was elected as an IEEE R8 Industry Lecturer (Industry Continuing Education Program). He published more than 100 papers in home and international journals and proceedings of international conferences, 2 chapters in 2 international scientific books, and 2 scientific books under the titles Actual Parameters of Power Lines Passing Through Urban Areas (LAMBERT, Academic Publishing, 2015) and Practical Methods for Analysis and Design of HV Installations Grounding Systems (ELSEVIER, Academic Publishing, 2018). His work had an impact on some of the IEC publications [Technical Report IEC 60909-2, Ed 1(1992-09) and IEC standard 60909-3, Ed 2 (2003-09)] and was highlighted by Vertical News, High-beam Research, High-beam Business, GOLIATH Business News, and News-edge and is presented through scientific network Research Gate. He was elected a member of the IEC Technical Committee—IEC/TC73—short circuit currents.
Affiliations and expertise
Senior member of IEEE Power and Energy Society; Retired Associated Professor, School of Electrical Engineering, University of Belgrade, SerbiaRead Relevant Characteristics of Power Lines Passing through Urban Areas on ScienceDirect