Comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm

The electric power distribution plays a crucial part in the power systems to maintain the power quality and stability of the system for loss mitigation and voltage regulation. The reactive power compensators like a capacitor, DG, and DSTATCOM play a vital role in power quality and stability improvem...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: T. Yuvaraj, K.R. Devabalaji, S. Srinivasan, Natarajan Prabaharan, R. Hariharan, Hassan Haes Alhelou, B. Ashokkumar
Formato: article
Lenguaje:EN
Publicado: Elsevier 2021
Materias:
DG
Acceso en línea:https://doaj.org/article/3888c8f7f4c7481999427f53b75f76d3
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:3888c8f7f4c7481999427f53b75f76d3
record_format dspace
spelling oai:doaj.org-article:3888c8f7f4c7481999427f53b75f76d32021-11-28T04:34:10ZComparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm2352-484710.1016/j.egyr.2021.08.184https://doaj.org/article/3888c8f7f4c7481999427f53b75f76d32021-11-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2352484721007873https://doaj.org/toc/2352-4847The electric power distribution plays a crucial part in the power systems to maintain the power quality and stability of the system for loss mitigation and voltage regulation. The reactive power compensators like a capacitor, DG, and DSTATCOM play a vital role in power quality and stability improvement by providing proper reactive power in the distribution system. This article provides a critical review and comparative analysis of various compensating devices allocation to achieve power loss mitigation and voltage regulation in the radial distribution system (RDS). The Bat Algorithm (BA) and Voltage Stability Index (VSI) are utilized for determining the optimal size and site of the compensating devices in the RDS. Further, the application of Blockchain technology is utilized for voltage regulation of energy trading RDS. To show the effectiveness of the present study, an IEEE 33 test system is considered. All three compensators are implemented in IEEE 33 test system and compared with existing approaches. The present study is very much helpful to the Distribution Network Operators for selecting the suitable compensator in real-time applications.T. YuvarajK.R. DevabalajiS. SrinivasanNatarajan PrabaharanR. HariharanHassan Haes AlhelouB. AshokkumarElsevierarticleDGCapacitorDSTATCOMBat AlgorithmBlockchain technologyPower loss mitigationElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENEnergy Reports, Vol 7, Iss , Pp 8312-8321 (2021)
institution DOAJ
collection DOAJ
language EN
topic DG
Capacitor
DSTATCOM
Bat Algorithm
Blockchain technology
Power loss mitigation
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
spellingShingle DG
Capacitor
DSTATCOM
Bat Algorithm
Blockchain technology
Power loss mitigation
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
T. Yuvaraj
K.R. Devabalaji
S. Srinivasan
Natarajan Prabaharan
R. Hariharan
Hassan Haes Alhelou
B. Ashokkumar
Comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm
description The electric power distribution plays a crucial part in the power systems to maintain the power quality and stability of the system for loss mitigation and voltage regulation. The reactive power compensators like a capacitor, DG, and DSTATCOM play a vital role in power quality and stability improvement by providing proper reactive power in the distribution system. This article provides a critical review and comparative analysis of various compensating devices allocation to achieve power loss mitigation and voltage regulation in the radial distribution system (RDS). The Bat Algorithm (BA) and Voltage Stability Index (VSI) are utilized for determining the optimal size and site of the compensating devices in the RDS. Further, the application of Blockchain technology is utilized for voltage regulation of energy trading RDS. To show the effectiveness of the present study, an IEEE 33 test system is considered. All three compensators are implemented in IEEE 33 test system and compared with existing approaches. The present study is very much helpful to the Distribution Network Operators for selecting the suitable compensator in real-time applications.
format article
author T. Yuvaraj
K.R. Devabalaji
S. Srinivasan
Natarajan Prabaharan
R. Hariharan
Hassan Haes Alhelou
B. Ashokkumar
author_facet T. Yuvaraj
K.R. Devabalaji
S. Srinivasan
Natarajan Prabaharan
R. Hariharan
Hassan Haes Alhelou
B. Ashokkumar
author_sort T. Yuvaraj
title Comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm
title_short Comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm
title_full Comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm
title_fullStr Comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm
title_full_unstemmed Comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using Blockchain technology and Bat Algorithm
title_sort comparative analysis of various compensating devices in energy trading radial distribution system for voltage regulation and loss mitigation using blockchain technology and bat algorithm
publisher Elsevier
publishDate 2021
url https://doaj.org/article/3888c8f7f4c7481999427f53b75f76d3
work_keys_str_mv AT tyuvaraj comparativeanalysisofvariouscompensatingdevicesinenergytradingradialdistributionsystemforvoltageregulationandlossmitigationusingblockchaintechnologyandbatalgorithm
AT krdevabalaji comparativeanalysisofvariouscompensatingdevicesinenergytradingradialdistributionsystemforvoltageregulationandlossmitigationusingblockchaintechnologyandbatalgorithm
AT ssrinivasan comparativeanalysisofvariouscompensatingdevicesinenergytradingradialdistributionsystemforvoltageregulationandlossmitigationusingblockchaintechnologyandbatalgorithm
AT natarajanprabaharan comparativeanalysisofvariouscompensatingdevicesinenergytradingradialdistributionsystemforvoltageregulationandlossmitigationusingblockchaintechnologyandbatalgorithm
AT rhariharan comparativeanalysisofvariouscompensatingdevicesinenergytradingradialdistributionsystemforvoltageregulationandlossmitigationusingblockchaintechnologyandbatalgorithm
AT hassanhaesalhelou comparativeanalysisofvariouscompensatingdevicesinenergytradingradialdistributionsystemforvoltageregulationandlossmitigationusingblockchaintechnologyandbatalgorithm
AT bashokkumar comparativeanalysisofvariouscompensatingdevicesinenergytradingradialdistributionsystemforvoltageregulationandlossmitigationusingblockchaintechnologyandbatalgorithm
_version_ 1718408310042918912