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Tytuł artykułu

Experimental performance characterization and economic efficiency of 16.28 kWp grid-tied PV systems in semi-arid climate

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The study of the paper aims to present a solar power plant performances and economic benefits of 16.28 kWp grid-tied solar PV systems under the real outdoor conditions of Ghardaïa, located in semi-arid area of the Algeria desert. The main goal of this study is to investigate the effectiveness, suitability, feasibility and reliably of these plants on the level of desert areas and under the influence of harsh conditions (desert environment) in the first part. In the second part, the contribution of solar PV plant to conventional networks in the arid and semi-arid environment to assess the rate of integration. Based on experimental measurement data, the paper also shows economic benefits of three photovoltaic plants. It was found that from the first January to last August 2019, the total produced energy by all PV arrays was 171.422 MWh which supplied to the internal grid and while, the consumed energy by the URAER unit was 159,094 kWh. Approximately 10, 95 % of the 159,094 MWh energy consumed in the whole year is provided from the generated PV solar energy that is 17,422 MWh. The total energy fed to the internal grid has grown from 27 MWh in 05/04/2018 to a maximum of 67.28 MWh recorded in 31/10/2019. The rate of integration of solar energy by all PV arrays in the internal network of the URAER varied between 6, 60% in January and 22, 96% in April. The integration of this renewable energy generation into the local grid in the URAER unit considered satisfactory over this period of operation. From the first January to last August 2019, the cost of electrical energy produced by solar plants is 2090,64 euro(277706,68 Algerian dinars) while the cost of energy consumed by the Applied Research Unit in renewable energies is 4772,82 euro(664853,826 Algerian dinars).
Czasopismo
Rocznik
Strony
53--65
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
  • Laboratoire des Energies Nouvelles et Renouvelables dans les Zones Arides (LENREZA), Faculté des Sciences et de la Technologie et des Sciences de la Matière, Université Kasdi Merbah Ouargla, Ouargla 30000 (Algérie)
  • Unité de Recherche Appliquée en Energies Renouvelables, URAER, Centre de Développement des Energies Renouvelables, CDER, 47133, Ghardaïa, Alegria
  • Laboratoire des Energies Nouvelles et Renouvelables dans les Zones Arides (LENREZA), Faculté des Sciences et de la Technologie et des Sciences de la Matière, Université Kasdi Merbah Ouargla, Ouargla 30000 (Algérie), Algeria
  • Laboratoire des Energies Nouvelles et Renouvelables dans les Zones Arides (LENREZA), Faculté des Sciences et de la Technologie et des Sciences de la Matière, Université Kasdi Merbah Ouargla, Ouargla 30000 (Algérie), Algeria
  • Unité de Recherche Appliquée en Energies Renouvelables, URAER, Centre de Développement des Energies Renouvelables, CDER, 47133, Ghardaïa, Alegria
autor
  • Unité de Recherche Appliquée en Energies Renouvelables, URAER, Centre de Développement des Energies Renouvelables, CDER, 47133, Ghardaïa, Alegria
  • Unité de Recherche Appliquée en Energies Renouvelables, URAER, Centre de Développement des Energies Renouvelables, CDER, 47133, Ghardaïa, Alegria
Bibliografia
  • 1. REN21 Renewables 2018 Global Status Report. 2018.
  • 2. Semaoui S, Abdeladim K, Taghezouit B, Hadj Arab A, Razagui A, Bacha S, Boulahchiche S, Bouacha S, Gherbi A, Experimental investigation of soiling impact on grid connected PV power. Energy Reports. 2020;6:302-308.
  • 3. Bandou F, A. Hadj Arab, MS. Belkaid, PO. Logerais R. Olivier, A. Charki. Evaluation Performance of Photovoltaic Modules after a Long Time Operation in Saharan Environment. International Journal of Hydrogen Energy. 2015;4:13839-13848. https://doi.org/10.1016/j.ijhydene.2015.04.091.
  • 4. Bouraiou, A, Hamouda M, Chaker A, Mostefaoui M, Lachtar S, Sadok M, Boutasseta N, Othmani M, Issam A. Analysis and Evaluation of the Impact of Climatic Conditions on the Photovoltaic Modules Performance in the Desert environment. Energy Conversion and Management. 2015;106:1345-1355. https://doi.org/10.1016/j.enconman.2015.10.073.
  • 5. Fezzani A, Hadj Mahammed I, Said D, Zaghba L, Bouchakour A, Benbitour M, Hamid Oudjana S. Degradation and Performance Evaluation of PV Module in Desert Climate Conditions with Estimate Uncertainty in Measuring. Serbian Journal of Electrical Engineering. 2017;14(2):277-299. https://doi.org/10.2298/sjee1702277f.
  • 6. Mostefaoui M, Ziane A, Bouraiou A, Khelifi S. Effect of sand dust accumulation on photovoltaic performance in the Saharan environment: southern Algeria (Adrar), Environmental Science and Pollution Research. 2019;26:259-268 https://doi.org/10.1007/s11356-018-3496-7.
  • 7. Ramadan J, Mustafa Mohamed R. Gomaa, Mujahed Al-Dhaifallah, Hegazy Rezk. Environmental Impacts on the Performance of Solar Photovoltaic Systems, Sustainability. 2020;12:608. https://doi.org/10.3390/su12020608.
  • 8. Makrides G, Zinsser B, Norton M, Georghiou GE, Schubert M, Werner JH. Potential of photovoltaic systems in countries with high solar irradiation. Renewable and Sustainable Energy Reviews 2010;14:754-62.
  • 9. Kymakis E, Kalykakis S, Papazoglou TM. Performance analysis of a grid connected Photovoltaic Park on the island of Crete. Energy Conversion and Management. 2009;50(3):433-438.
  • 10. Hegazy Rezk, Mohamed R. Gomaa, Mohamed A. Mohamed, Mohammed J. Al Shammri. Energy Performance Analysis of On-Grid Solar Photovoltaic System- a Practical Case Study, International Journal of Renewable Energy Research-IJRER. 2019; 9(3).
  • 11. Sharma Vikrant, Kumar Arun, Sastry OS, Chandel SS. Performance assessment of different solar photovoltaic technologies under similar outdoor conditions. Energy. 2013;58:511-518.
  • 12. Mohamed R. Gomaa, Waleed Hammad, Mujahed AlDhaifallah, Hegazy Rezk. Performance enhancement of grid-tied PV system through proposed design cooling techniques: An experimental study and comparative analysis. Solar Energy. 2020;211: 1110-1127. https://doi.org/10.1016/j.solener.2020.10.062.
  • 13. Zaghba L, Khennane M, Fezzani A, Borni A, Hadj Mahammed I. Experimental performance assessment of a 2.25 kWp Rooftop PV system installed in the desert environment: a case study of Ghardaia, Algeria, International Journal of Sustainable Engineering.2020. https://doi.org/10.1080/19397038.2020.1743377.
  • 14. Zaghba L, Khennane M, Fezzani A, Borni A, Hadj Mahammed I. Experimental outdoor performance evaluation of photovoltaic plant in a sahara environment (Algerian Desert). International Journal of Ambient Energy. 2019;1-11. https://doi.org/10.1080/01430750.2019.1636865.
  • 15. Rawat R, Kaushik SC, Lamba Ravita. A review on modeling, design methodology and size optimization of photovoltaic based water pumping, standalone and grid connected system. Renew Sustain Energy Rev 2016;57:1506-19.
  • 16. Ayompe LM, et al., Measured performance of a 1.72 kW rooftop grid connected photovoltaic system in Ireland. Energy Convers Manage. 2010;52 (2):816-25. https://doi.org/10.1016/j.enconman.2010.08.007.
  • 17. Necaibia A et al, Analytical assessment of the outdoor performance and efficiency of grid-tied photovoltaic system under hot dry climate in the south of Algeria, Energyconversion and Management. 2018; 171:778-786.
  • 18. Skoplaki E, Palyvos JA. On the temperature dependence of photovoltaic module electrical performance: a review of efficiency/power correlations, Sol. Energy. 2009;83:614-624. https://doi.org/10.1016/j.solener.2008.10.008.
  • 19. Tian H, Mancilla-David F, Ellis K, Muljadi E, Jenkins P. 2012. A cell-to-module-toarray detailed model for photovoltaic panels. Sol Energy. 2012; 86:2695-706.
  • 20. Boutana N, Mellit A, Haddada S. Rabhi A, Massi Pavan A. An explicit I-V model for photovoltaic module technologies, Energy Conversion and Management. 2017; 138:400-412.
  • 21. Supriyono, Hassan Khamis Hassan, Marwan Effendy. Smart Detection of Sunlight using Arduino on Solar Power Systems. Test engineering& Management. 2019;81:6576-6584.
  • 22. Gairaa K, Khellaf A, Messlem Y, Chellali Y. Estimation of the Daily Global Solar Radiation Based on Box–Jenkins and ANN Models: A Combined Approach. Renewable and Sustainable Energy Reviews. 2016;57:238-249.
  • 23. Guermoui, Mawloud, Abdelaziz Rabehi. Soft Computing for Solar Radiation Potential Assessment in Algeria. International Journal of Ambient Energy. 2018;41(13). https://doi.org/10.1080/01430750.2018.1517686.
  • 24. Zaghba L, Khennane M, Hadj Mahamed I, Oudjana HS, Fezzani A, Bouchakour A, Terki N. A combined simulation and experimental analysis the dynamic performance of a 2 kW photovoltaic plant installed in the desert environment, Int J Energy Environ Eng. 2016;7:49-260. https://doi.org/10.1007/s40095-016-0216-2.
  • 25. Zaghba L, Khennane M, Terki N, Borni A, Bouchakour A, Fezzani A, Hadj Mahamed I, Oudjana SH. The effect of seasonal variation on the performances of grid connected photovoltaic system in southern of Algeria. AIP Conference Proceedings 2017;1814:020005. https://doi.org/10.1063/1.4976224.
  • 26. Sahouane N, Dabou R, Ziane A, Neçaibia A, Bouraiou A, Rouabhia A, Mohammed B. Energy and economic efficiency performance assessment of a 28 kWp photovoltaic grid connected system under desertic weather conditions in Algerian Sahara. Renewable. Energy. 2019;143:1318-1330 https://doi.org/10.1016/j.renene.2019.05.086.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-27f131ff-f04a-46a1-944b-6170a62a21b5
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