Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region

Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region

Solar photovoltaics and the associated applications are now considered the most promising technologies for a sustainable future. The performance of the PV power plants is not studied in detail with respect to the influence of various weather parameters like rain, relative humidity, and atmospheric p...

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Main Authors: Ajith Gopi, K. Sudhakar, Ngui Wai Keng, Ananthu R. Krishnan, S. Shanmuga Priya
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:International Journal of Photoenergy
Online Access:http://dx.doi.org/10.1155/2021/5551014
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spelling doaj-3252d4675ca74d5d904138985f69a49d2021-07-12T02:12:06ZengHindawi LimitedInternational Journal of Photoenergy1687-529X2021-01-01202110.1155/2021/5551014Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical RegionAjith Gopi0K. Sudhakar1Ngui Wai Keng2Ananthu R. Krishnan3S. Shanmuga Priya4College of EngineeringCentre for Automotive EngineeringCollege of EngineeringIEEEDepartment of Chemical EngineeringSolar photovoltaics and the associated applications are now considered the most promising technologies for a sustainable future. The performance of the PV power plants is not studied in detail with respect to the influence of various weather parameters like rain, relative humidity, and atmospheric pressure on energy generation. The objective of this research work is to analyze and model the weather impact of a utility-scale PV power plant in a tropical region. The methodology involves the detailed analysis of the PV plant performance for various weather seasons and modeling the energy generation based on important weather parameters obtained from a Solar Radiation Resource Assessment (SRRA) station installed at the PV power plant location itself. Solar generation and its performance are affected during the rainy seasons, and it turns out to be a typical phenomenon in the humid tropical region. A regression model of solar generation for all the weather seasons is generated based on different weather parameters.http://dx.doi.org/10.1155/2021/5551014
collection DOAJ
language English
format Article
sources DOAJ
author Ajith Gopi
K. Sudhakar
Ngui Wai Keng
Ananthu R. Krishnan
S. Shanmuga Priya
spellingShingle Ajith Gopi
K. Sudhakar
Ngui Wai Keng
Ananthu R. Krishnan
S. Shanmuga Priya
Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region
International Journal of Photoenergy
author_facet Ajith Gopi
K. Sudhakar
Ngui Wai Keng
Ananthu R. Krishnan
S. Shanmuga Priya
author_sort Ajith Gopi
title Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region
title_short Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region
title_full Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region
title_fullStr Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region
title_full_unstemmed Performance Modeling of the Weather Impact on a Utility-Scale PV Power Plant in a Tropical Region
title_sort performance modeling of the weather impact on a utility-scale pv power plant in a tropical region
publisher Hindawi Limited
series International Journal of Photoenergy
issn 1687-529X
publishDate 2021-01-01
description Solar photovoltaics and the associated applications are now considered the most promising technologies for a sustainable future. The performance of the PV power plants is not studied in detail with respect to the influence of various weather parameters like rain, relative humidity, and atmospheric pressure on energy generation. The objective of this research work is to analyze and model the weather impact of a utility-scale PV power plant in a tropical region. The methodology involves the detailed analysis of the PV plant performance for various weather seasons and modeling the energy generation based on important weather parameters obtained from a Solar Radiation Resource Assessment (SRRA) station installed at the PV power plant location itself. Solar generation and its performance are affected during the rainy seasons, and it turns out to be a typical phenomenon in the humid tropical region. A regression model of solar generation for all the weather seasons is generated based on different weather parameters.
url http://dx.doi.org/10.1155/2021/5551014
work_keys_str_mv AT ajithgopi performancemodelingoftheweatherimpactonautilityscalepvpowerplantinatropicalregion
AT ksudhakar performancemodelingoftheweatherimpactonautilityscalepvpowerplantinatropicalregion
AT nguiwaikeng performancemodelingoftheweatherimpactonautilityscalepvpowerplantinatropicalregion
AT ananthurkrishnan performancemodelingoftheweatherimpactonautilityscalepvpowerplantinatropicalregion
AT sshanmugapriya performancemodelingoftheweatherimpactonautilityscalepvpowerplantinatropicalregion
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