MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA

Depletion of fossil fuel reserves and global warming are the two major challenges faced by the earth. Therefore, the need for sustainable source of energy such as renewable sources have become increasingly significant. In Malaysia, renewable energy (RE) was targeted to reach 30% by year 2030 in t...

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Main Author: Chua Kae Jiuan
Format: text::Thesis
Language:English
Published: 2023
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spelling my.uniten.dspace-194852023-05-04T13:04:29Z MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA Chua Kae Jiuan MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC Depletion of fossil fuel reserves and global warming are the two major challenges faced by the earth. Therefore, the need for sustainable source of energy such as renewable sources have become increasingly significant. In Malaysia, renewable energy (RE) was targeted to reach 30% by year 2030 in the Green Technology Master Plan, and the minister’s aspiration was for RE to reach 50% of generation mix by year 2050 since Malaysia is located within the equatorial region. This dissertation analyses the impact of Large Scale Solar (LSS) to the generic grid of Peninsular Malaysia and determines the optimal penetration level of Large Scale Solar beyond which the grid stability is compromised. A complete process flow is proposed in the study starting from choosing the potential LSS power plant sites, selecting base case, developing study scenarios and conducting power system studies for scenarios with different solar penetration level. Load flow analysis is executed to study the impact of LSS to the transmission lines capacity, bus voltage and fault current level of the circuit breaker in the network. In addition, the impact of increased LSS penetration level during normal steady state condition as well as under disturbance conditions over timescales of a few seconds to 60 seconds have been analyzed. All the load flow and dynamic stability studies are studied by using Power System Simulator for Engineering (PSS/E) simulation software tool. The studies showed that the maximum penetration level of Large Scale Solar is 22% based on the system off-peak demand. The studies also showed that the Large Scale Solar is not detrimental to the grid in steady state and dynamic studies as long as it is within the maximum penetration limit. However, if the solar penetration is beyond the 22% maximum penetration limit, transmission grid will be unstable under system disturbance. 2023-05-03T13:34:29Z 2023-05-03T13:34:29Z 2020-02 Resource Types::text::Thesis https://irepository.uniten.edu.my/handle/123456789/19485 en application/pdf
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/
language English
topic MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC
spellingShingle MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC
Chua Kae Jiuan
MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA
description Depletion of fossil fuel reserves and global warming are the two major challenges faced by the earth. Therefore, the need for sustainable source of energy such as renewable sources have become increasingly significant. In Malaysia, renewable energy (RE) was targeted to reach 30% by year 2030 in the Green Technology Master Plan, and the minister’s aspiration was for RE to reach 50% of generation mix by year 2050 since Malaysia is located within the equatorial region. This dissertation analyses the impact of Large Scale Solar (LSS) to the generic grid of Peninsular Malaysia and determines the optimal penetration level of Large Scale Solar beyond which the grid stability is compromised. A complete process flow is proposed in the study starting from choosing the potential LSS power plant sites, selecting base case, developing study scenarios and conducting power system studies for scenarios with different solar penetration level. Load flow analysis is executed to study the impact of LSS to the transmission lines capacity, bus voltage and fault current level of the circuit breaker in the network. In addition, the impact of increased LSS penetration level during normal steady state condition as well as under disturbance conditions over timescales of a few seconds to 60 seconds have been analyzed. All the load flow and dynamic stability studies are studied by using Power System Simulator for Engineering (PSS/E) simulation software tool. The studies showed that the maximum penetration level of Large Scale Solar is 22% based on the system off-peak demand. The studies also showed that the Large Scale Solar is not detrimental to the grid in steady state and dynamic studies as long as it is within the maximum penetration limit. However, if the solar penetration is beyond the 22% maximum penetration limit, transmission grid will be unstable under system disturbance.
format Resource Types::text::Thesis
author Chua Kae Jiuan
author_facet Chua Kae Jiuan
author_sort Chua Kae Jiuan
title MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA
title_short MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA
title_full MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA
title_fullStr MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA
title_full_unstemmed MAXIMUM PENETRATION LEVEL OF SOLAR PHOTOVOLTAIC TO THE ELECTRICAL GRID IN PENINSULAR MALAYSIA
title_sort maximum penetration level of solar photovoltaic to the electrical grid in peninsular malaysia
publishDate 2023
_version_ 1806423373766459392
score 13.214268