Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques

Flexible AC Transmission Systems (FACTs) play a vital role in minimizing the power losses and improving voltage profile in power transmission system. These increase the real power transfer capacity of the system. However, optimal location of sizing of the FACTs devices determines the extent of benef...

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Main Authors: Balasubramaniam N., Kamari N.A.M., Musirin I., Ibrahim A.A.
Other Authors: 58304495400
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Published: Science and Information Organization 2024
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spelling my.uniten.dspace-346352024-10-14T11:21:17Z Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques Balasubramaniam N. Kamari N.A.M. Musirin I. Ibrahim A.A. 58304495400 36680312000 8620004100 7202978991 Artificial Immune System (AIS) Evolutionary Programming (EP) Flexible AC Transmission Systems (FACTs) Immune Evolutionary Programming (IEP) Shunt VARs Compensators (SVCs) Electric load shedding Electric power system control Flexible AC transmission systems Installation Optimal systems Optimization Risk management Static Var compensators Transmissions Value engineering Artificial Immune System Evolutionary programming Flexible AC transmission system Immune evolutionary programming Loss control Power Shunt VAR compensator VAR compensators Voltage profile Energy transfer Flexible AC Transmission Systems (FACTs) play a vital role in minimizing the power losses and improving voltage profile in power transmission system. These increase the real power transfer capacity of the system. However, optimal location of sizing of the FACTs devices determines the extent of benefits provided by the FACTs devices to the transmission system. Non-optimal solution in terms of the location and sizing may possibly lead to under-compensation or over-compensation phenomena. Thus, a robust optimization is a priori for optimal solution achievement. This paper presents a study on the effect on multi static VAR compensators (SVC) installation for loss control in power system using evolutionary programming (EP), artificial immune system (AIS) and immune evolutionary programming (IEP). The objective is to minimize the real power loss transmission and improve the voltage profile of the transmission power system. The study reveals that installation of multi-units SVC significantly reduces the power loss and increases the voltage profile of the system, validated on the IEEE 30-Bus Reliability Test System (RTS). � 2023, International Journal of Advanced Computer Science and Applications. All Rights Reserved. Final 2024-10-14T03:21:17Z 2024-10-14T03:21:17Z 2023 Article 10.14569/IJACSA.2023.01405103 2-s2.0-85161248832 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85161248832&doi=10.14569%2fIJACSA.2023.01405103&partnerID=40&md5=f11b5bec4eee6c297e02c62ef260aa42 https://irepository.uniten.edu.my/handle/123456789/34635 14 5 992 1005 All Open Access Gold Open Access Science and Information Organization Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Artificial Immune System (AIS)
Evolutionary Programming (EP)
Flexible AC Transmission Systems (FACTs)
Immune Evolutionary Programming (IEP)
Shunt VARs Compensators (SVCs)
Electric load shedding
Electric power system control
Flexible AC transmission systems
Installation
Optimal systems
Optimization
Risk management
Static Var compensators
Transmissions
Value engineering
Artificial Immune System
Evolutionary programming
Flexible AC transmission system
Immune evolutionary programming
Loss control
Power
Shunt VAR compensator
VAR compensators
Voltage profile
Energy transfer
spellingShingle Artificial Immune System (AIS)
Evolutionary Programming (EP)
Flexible AC Transmission Systems (FACTs)
Immune Evolutionary Programming (IEP)
Shunt VARs Compensators (SVCs)
Electric load shedding
Electric power system control
Flexible AC transmission systems
Installation
Optimal systems
Optimization
Risk management
Static Var compensators
Transmissions
Value engineering
Artificial Immune System
Evolutionary programming
Flexible AC transmission system
Immune evolutionary programming
Loss control
Power
Shunt VAR compensator
VAR compensators
Voltage profile
Energy transfer
Balasubramaniam N.
Kamari N.A.M.
Musirin I.
Ibrahim A.A.
Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques
description Flexible AC Transmission Systems (FACTs) play a vital role in minimizing the power losses and improving voltage profile in power transmission system. These increase the real power transfer capacity of the system. However, optimal location of sizing of the FACTs devices determines the extent of benefits provided by the FACTs devices to the transmission system. Non-optimal solution in terms of the location and sizing may possibly lead to under-compensation or over-compensation phenomena. Thus, a robust optimization is a priori for optimal solution achievement. This paper presents a study on the effect on multi static VAR compensators (SVC) installation for loss control in power system using evolutionary programming (EP), artificial immune system (AIS) and immune evolutionary programming (IEP). The objective is to minimize the real power loss transmission and improve the voltage profile of the transmission power system. The study reveals that installation of multi-units SVC significantly reduces the power loss and increases the voltage profile of the system, validated on the IEEE 30-Bus Reliability Test System (RTS). � 2023, International Journal of Advanced Computer Science and Applications. All Rights Reserved.
author2 58304495400
author_facet 58304495400
Balasubramaniam N.
Kamari N.A.M.
Musirin I.
Ibrahim A.A.
format Article
author Balasubramaniam N.
Kamari N.A.M.
Musirin I.
Ibrahim A.A.
author_sort Balasubramaniam N.
title Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques
title_short Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques
title_full Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques
title_fullStr Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques
title_full_unstemmed Effect of Multi-SVC Installation for Loss Control in Power System using Multi-Computational Techniques
title_sort effect of multi-svc installation for loss control in power system using multi-computational techniques
publisher Science and Information Organization
publishDate 2024
_version_ 1814060107237949440
score 13.222552