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An improved model and performance analysis for grid-connected photovoltaic system in Oman.
Al-Shahri, Omar A; Ismail, Firas B; Al-Muhsen, Nizar F O; Al-Bazi, Ammar; Hannan, M A.
Affiliation
  • Al-Shahri OA; Power Generation Unit, Institute of Power Engineering (IPE), Universiti Tenaga Nasional (UNITEN), 43000, Kajang, Malaysia.
  • Ismail FB; Power Generation Unit, Institute of Power Engineering (IPE), Universiti Tenaga Nasional (UNITEN), 43000, Kajang, Malaysia.
  • Al-Muhsen NFO; Technical Instructors Training Institute, Middle Technical University, Baghdad, Iraq.
  • Al-Bazi A; Operations and Information Management Department, Aston Business School, Birmingham, UK.
  • Hannan MA; Dept. of Electrical Power Eng., Universiti Tenaga Nasional, 43000, Kajang, Malaysia.
Heliyon ; 8(12): e12237, 2022 Dec.
Article in En | MEDLINE | ID: mdl-36590488
The PV systems' sources are environmentally friendly, but at the same time, they are constantly changing with time. When evaluating solar energy resources, it is necessary to consider the variability and effects of different environmental operation parameters like solar irradiances, ambient temperature, and module temperature. The study introduces a method to simulate an existing photovoltaic system using a mathematical model that permits intelligent strategies to optimise the efficiency and adjust the most effective operational parameters for the solar energy systems. A mathematical analysis for the data framework, including correlation and regression coefficients, was calculated to identify and chart the relationships between the system's most influential parameters and the generated power from the PV system. An improved mathematical model was built with the most influential parameters. The improved model was simple, accurate, and based on the loss ratio by eliminating the unknown parameters. The system's efficiency was analysed using an existing data framework-recorded hourly from 1st January 2017 to December 2018 for a grid-connected photovoltaic system installed in the south of Oman. The results showed that the most influential parameters on the efficiency were the module's solar irradiance and surface temperature. The operating parameters such as ambient temperature, wind speed, and air humidity had a negligible effect on the generated power compared to the cell temperatures and solar radiation. The dissipation factor was used in the new output current and voltage equations to stimulate the output power of the PV model. The improved model was validated in a MATLAB Simulink and showed a more promising output with a lower RMSE of 5 %.
Key words

Full text: 1 Collection: 01-internacional Database: MEDLINE Type of study: Prognostic_studies Language: En Journal: Heliyon Year: 2022 Document type: Article Affiliation country: Malasia Country of publication: Reino Unido

Full text: 1 Collection: 01-internacional Database: MEDLINE Type of study: Prognostic_studies Language: En Journal: Heliyon Year: 2022 Document type: Article Affiliation country: Malasia Country of publication: Reino Unido