Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System

Currently, a large-scale solar photovoltaic (LSSPV) has become one of the fastest developments of electrical generation power for Malaysian Renewable Energy. However, lightning strikes are common in Malaysia due to its geographical position and tropical climate, especially in the open space of large...

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Published in:Journal of Advanced Research in Applied Sciences and Engineering Technology
Main Author: Zakaria N.A.M.; Hussain M.N.M.; Ibrahim I.R.; Damanhuri N.S.; Ahmad N.F.
Format: Article
Language:English
Published: Semarak Ilmu Publishing 2023
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85168084801&doi=10.37934%2faraset.31.2.1930&partnerID=40&md5=0e547f4691d8f396ff66cb4203d1cea8
id 2-s2.0-85168084801
spelling 2-s2.0-85168084801
Zakaria N.A.M.; Hussain M.N.M.; Ibrahim I.R.; Damanhuri N.S.; Ahmad N.F.
Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
2023
Journal of Advanced Research in Applied Sciences and Engineering Technology
31
2
10.37934/araset.31.2.1930
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85168084801&doi=10.37934%2faraset.31.2.1930&partnerID=40&md5=0e547f4691d8f396ff66cb4203d1cea8
Currently, a large-scale solar photovoltaic (LSSPV) has become one of the fastest developments of electrical generation power for Malaysian Renewable Energy. However, lightning strikes are common in Malaysia due to its geographical position and tropical climate, especially in the open space of large-scale site power plants. This paper discussed the scientific basis and key assumptions that should be included in the layout of a lightning protection scheme in a large-scale solar photovoltaic installation. The framework proposal aims to ensure compliance with standards and guidelines, mitigating the risk of significantly induced currents in the LSSPV power plant. A 2.5 MW solar PV farm system was modelled using MATLAB software for assessing a solar PV farm’s electrical performance under various lightning current waveforms and lightning magnitude currents. These lightning strikes will impact photovoltaic modules, thus deteriorating the system’s ratio generation. The effects of lightning current on LSSPV were accessed based on simulation work in MATLAB Simulink. The induced current protection scheme covered rating selection and collecting data on lightning that may hit the modules or arrays. This data was then analysed according to the standard guidelines to ascertain the most effective protection measures for the 50MW PV farm within the LSSPV system. Minimising the maintenance and replacement cost of equipment is possible. The performance of a 2.5MW solar PV power plant with a grid connection was evaluated. A maximum and minimum power output of 2.47MW and 522.50kW, respectively, were observed. However, when the lightning impulsive current is included through the system, the power output decrease to 407.33kW due to the high magnitude induced. © 2023, Penerbit Akademia Baru. All rights reserved.
Semarak Ilmu Publishing
24621943
English
Article
All Open Access; Hybrid Gold Open Access
author Zakaria N.A.M.; Hussain M.N.M.; Ibrahim I.R.; Damanhuri N.S.; Ahmad N.F.
spellingShingle Zakaria N.A.M.; Hussain M.N.M.; Ibrahim I.R.; Damanhuri N.S.; Ahmad N.F.
Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
author_facet Zakaria N.A.M.; Hussain M.N.M.; Ibrahim I.R.; Damanhuri N.S.; Ahmad N.F.
author_sort Zakaria N.A.M.; Hussain M.N.M.; Ibrahim I.R.; Damanhuri N.S.; Ahmad N.F.
title Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
title_short Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
title_full Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
title_fullStr Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
title_full_unstemmed Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
title_sort Power Efficiency Analysis based on Lightning Effect on Large-Scale Solar Photovoltaic System
publishDate 2023
container_title Journal of Advanced Research in Applied Sciences and Engineering Technology
container_volume 31
container_issue 2
doi_str_mv 10.37934/araset.31.2.1930
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85168084801&doi=10.37934%2faraset.31.2.1930&partnerID=40&md5=0e547f4691d8f396ff66cb4203d1cea8
description Currently, a large-scale solar photovoltaic (LSSPV) has become one of the fastest developments of electrical generation power for Malaysian Renewable Energy. However, lightning strikes are common in Malaysia due to its geographical position and tropical climate, especially in the open space of large-scale site power plants. This paper discussed the scientific basis and key assumptions that should be included in the layout of a lightning protection scheme in a large-scale solar photovoltaic installation. The framework proposal aims to ensure compliance with standards and guidelines, mitigating the risk of significantly induced currents in the LSSPV power plant. A 2.5 MW solar PV farm system was modelled using MATLAB software for assessing a solar PV farm’s electrical performance under various lightning current waveforms and lightning magnitude currents. These lightning strikes will impact photovoltaic modules, thus deteriorating the system’s ratio generation. The effects of lightning current on LSSPV were accessed based on simulation work in MATLAB Simulink. The induced current protection scheme covered rating selection and collecting data on lightning that may hit the modules or arrays. This data was then analysed according to the standard guidelines to ascertain the most effective protection measures for the 50MW PV farm within the LSSPV system. Minimising the maintenance and replacement cost of equipment is possible. The performance of a 2.5MW solar PV power plant with a grid connection was evaluated. A maximum and minimum power output of 2.47MW and 522.50kW, respectively, were observed. However, when the lightning impulsive current is included through the system, the power output decrease to 407.33kW due to the high magnitude induced. © 2023, Penerbit Akademia Baru. All rights reserved.
publisher Semarak Ilmu Publishing
issn 24621943
language English
format Article
accesstype All Open Access; Hybrid Gold Open Access
record_format scopus
collection Scopus
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