Modeling and Performance Analysis of a Rooftop Photovoltaic System for Batman: Impact of Seasonal Shading on Energy Efficiency

Bilal Altunç; Mehmet Recep Minaz

Araştırma Makalesi

Yıl 2024, Cilt: 5 Sayı: 2, 1 - 12, 31.12.2024

Bilal Altunç , Mehmet Recep Minaz

Öz

Proje Numarası

yok

Kaynakça

Akcan, E., Kuncan, M., & Minaz, M. R. (2020). PVsyst yazılımı ile 30 kw şebekeye bağlı fotovoltaik sistemin modellenmesi ve simülasyonu. Avrupa Bilim ve Teknoloji Dergisi, (18), 248-261.
Albatayneh, A., Albadaineh, R., Juaidi, A., Abdallah, R., Zabalo, A., & Manzano-Agugliaro, F. (2022). Enhancing the energy efficiency of buildings by shading with PV panels in semi-arid climate zone. Sustainability, 14(24), 17040.
Archer, M. D., & Green, M. A. (Eds.). (2014). Clean electricity from photovoltaics (Vol. 4). World scientific.
Badea, A. M., Manaila-Maximean, D., Fara, L., & Craciunescu, D. (2025). Maximizing solar photovoltaic energy efficiency: MPPT techniques investigation based on shading effects. Solar Energy, 285, 113082.
Baqir, M., & Channi, H. K. (2022). Analysis and design of solar PV system using Pvsyst software. Materials Today: Proceedings, 48, 1332-1338.
Bayrak, F., Ertürk, G., & Oztop, H. F. (2017). Effects of partial shading on energy and exergy efficiencies for photovoltaic panels. Journal of cleaner production, 164, 58-69.
Bolat, M., Arifoglu, U., & Demiryürek, H. K. (2020). Analysis of Lebit energy solar power plant with PVsyst program. Bitlis Eren University Journal of Science and Technology, 9(3), 1351-1363.
Çakmak, F., Aydoğmuş, Z., & Tür, M. R. (2024). Analysis of Open Circuit Voltage MPPT Method with Analytical Analysis with Perturb and Observe (P&O) MPPT Method in PV Systems. Electric Power Components and Systems, 52(9), 1528-1542.
Çiftçi, S., Solak, M., & Kuncan, M. (2020). Powered by the sun: designing and analyzing technical and economic aspects of a school sustained by photovoltaics. Journal of Mechatronics and Artificial Intelligence in Engineering, 1(1), 21-32.
Dong, H., Xu, C., & Chen, W. (2023, October). Modeling and configuration optimization of the rooftop photovoltaic with electric-hydrogen-thermal hybrid storage system for zero-energy buildings: Consider a cumulative seasonal effect. In Building Simulation (Vol. 16, No. 10, pp. 1799-1819). Beijing: Tsinghua University Press.
Dzimano, G. J. (2008). Modeling of photovoltaic systems (Master's thesis, The Ohio State University).
E. Hossain, M. R. Tür, S. Padmanaban, S. Ay and I. Khan, "Analysis and Mitigation of Power Quality Issues in Distributed Generation Systems Using Custom Power Devices," in IEEE Access, vol. 6, pp. 16816-16833, 2018, doi: 10.1109/ACCESS.2018.2814981
Etci, A., & Bilhan, A. (2021). Modeling of fixed and dual axis solar tracking system in Konya province with PVSyst. European Journal of Science and Technology, (32), 142-147.
F. Çakmak, Z. Aydoğmuş and M. R. Tür, "Mppt Control for PV Systems with Analytical Analysis Fractional Open Circuit Voltage Method," 2022 Global Energy Conference (GEC), Batman, Turkey, 2022, pp. 130-135, doi: 10.1109/GEC55014.2022.9986746.
Kılıç, M. Y., & Kurtaran, M. Photovoltaic System Design for Sustainable Energy Production and Simulation with PVsyst Program: The Case of Bursa Province. Turkish Journal of Agriculture and Natural Sciences, 11(1), 239-248.
Kumar, R., Rajoria, C. S., Sharma, A., & Suhag, S. (2021). Design and simulation of standalone solar PV system using PVsyst Software: A case study. Materials Today: Proceedings, 46, 5322-5328.
Makarova, A. (2017). Study, Design and Performance Analysis of a Grid-Connected Photovoltaic System: Case study: 5 MW Grid-Connected PV System in Namibia.
Marhraoui, S., Abbou, A., El Hichami, N., Rhaili, S. E., & Tur, M. R. (2019, November). Grid-Connected PV Using Sliding Mode Based on Incremental Conductance MPPT and VSC. In 2019 8th International Conference on Renewable Energy Research and Applications (ICRERA) (pp. 516-520). IEEE.
Messenger, R. A., & Abtahi, A. (2018). Photovoltaic systems engineering. CRC press.
Mishra, P. R., Rathore, S., & Jain, V. (2024). PVSyst enabled real time evaluation of grid connected solar photovoltaic system. International Journal of Information Technology, 16(2), 745-752.
Mohamed, M. A., Elmi, A. A., Ahmed, N. A., Mohamed, Y. H., & Siyad, A. A. (2024, January). Designing and Simulation of Three Phase Grid-Connected Photovoltaic System. In International Conference on Forthcoming Networks and Sustainability in the AIoT Era (pp. 22-31). Cham: Springer Nature Switzerland.
Mohammadi, S. A. D., & Gezegin, C. (2022). Design and simulation of grid-connected solar PV system using PVSYST, PVGIS and HOMER software. International Journal of Pioneering Technology and Engineering, 1(01), 36-41.
Özcan, Ö., & İzgi, E. (2020). Comparative Performance Analysis of Grid-Connected Photovoltaic Roof System. Kahramanmaraş Sütçü İmam University Journal of Engineering Sciences, 23(3), 127-140.
PVsyst, Features, [online], https://www.pvsyst.com/features/, [visited June 14, 2024].
Rawat, R., Chaudhary, V., Dubey, H. M., & Pandit, M. (2019, November). Performance Evaluation of 30.5 kWp On-Grid Solar System Using PVsyst. In International Conference on Sustainable and Innovative Solutions for Current Challenges in Engineering & Technology (pp. 376-388). Cham: Springer International Publishing.
Sancar, M. R., & Altinkaynak, M. (2021). Comparison of Photovoltaic Systems Designed on Different Roof Types for Isparta Province. European Journal of Science and Technology, (32), 1024-1028.
Sharma, S., Kurian, C. P., & Paragond, L. S. (2018, March). Solar PV system design using PVsyst: a case study of an academic Institute. In 2018 international conference on control, power, communication and computing technologies (ICCPCCT) (pp. 123-128). IEEE.
Siregar, Y., & Hutahuruk, Y. (2020, September). Optimization design and simulating solar PV system using PVSyst software. In 2020 4rd International Conference on Electrical, Telecommunication and Computer Engineering (ELTICOM) (pp. 219-223). IEEE.
Vidur, P. R., & Jagwani, S. (2022, January). Design and simulation of a Rooftop solar PV system Using PV syst software. In 2022 4th International Conference on Smart Systems and Inventive Technology (ICSSIT) (pp. 724-728). IEEE.

Modeling and Performance Analysis of a Rooftop Photovoltaic System for Batman: Impact of Seasonal Shading on Energy Efficiency

Yıl 2024, Cilt: 5 Sayı: 2, 1 - 12, 31.12.2024

Bilal Altunç , Mehmet Recep Minaz

Öz

Today, the limited availability of conventional energy resources and increasing environmental impacts necessitate the use of renewable energy sources. In this context, solar energy stands out as a sustainable alternative and photovoltaic (PV) systems provide efficient conversion of this energy. In this paper, the modeling and simulation of a rooftop PV system for Batman Dicle Elektrik Dağıtım A.Ş. (DEDAŞ) building is investigated. The aim is to reduce energy costs and increase environmental sustainability by utilizing solar energy. PVsyst software was used to design the PV system and its performance was simulated under various shading scenarios. The results show that shading leads to significant losses in energy production, especially in winter, with losses of up to 28% observed in December. In summer, the effect of shading is reduced and only 4% loss was recorded in June. The study reveals that PV systems that take into account local climatic and geographical conditions offer significant opportunities to expand the use of renewable energy and constitute a valuable resource in the design and optimization processes for similar projects

Anahtar Kelimeler

Photovoltaic (PV) Systems, Shading Effect, Energy Efficiency, Renewable Energy

Etik Beyan

yok

Destekleyen Kurum

yok

Proje Numarası

yok

Teşekkür

teşekkür ederim

Kaynakça

Akcan, E., Kuncan, M., & Minaz, M. R. (2020). PVsyst yazılımı ile 30 kw şebekeye bağlı fotovoltaik sistemin modellenmesi ve simülasyonu. Avrupa Bilim ve Teknoloji Dergisi, (18), 248-261.
Albatayneh, A., Albadaineh, R., Juaidi, A., Abdallah, R., Zabalo, A., & Manzano-Agugliaro, F. (2022). Enhancing the energy efficiency of buildings by shading with PV panels in semi-arid climate zone. Sustainability, 14(24), 17040.
Archer, M. D., & Green, M. A. (Eds.). (2014). Clean electricity from photovoltaics (Vol. 4). World scientific.
Badea, A. M., Manaila-Maximean, D., Fara, L., & Craciunescu, D. (2025). Maximizing solar photovoltaic energy efficiency: MPPT techniques investigation based on shading effects. Solar Energy, 285, 113082.
Baqir, M., & Channi, H. K. (2022). Analysis and design of solar PV system using Pvsyst software. Materials Today: Proceedings, 48, 1332-1338.
Bayrak, F., Ertürk, G., & Oztop, H. F. (2017). Effects of partial shading on energy and exergy efficiencies for photovoltaic panels. Journal of cleaner production, 164, 58-69.
Bolat, M., Arifoglu, U., & Demiryürek, H. K. (2020). Analysis of Lebit energy solar power plant with PVsyst program. Bitlis Eren University Journal of Science and Technology, 9(3), 1351-1363.
Çakmak, F., Aydoğmuş, Z., & Tür, M. R. (2024). Analysis of Open Circuit Voltage MPPT Method with Analytical Analysis with Perturb and Observe (P&O) MPPT Method in PV Systems. Electric Power Components and Systems, 52(9), 1528-1542.
Çiftçi, S., Solak, M., & Kuncan, M. (2020). Powered by the sun: designing and analyzing technical and economic aspects of a school sustained by photovoltaics. Journal of Mechatronics and Artificial Intelligence in Engineering, 1(1), 21-32.
Dong, H., Xu, C., & Chen, W. (2023, October). Modeling and configuration optimization of the rooftop photovoltaic with electric-hydrogen-thermal hybrid storage system for zero-energy buildings: Consider a cumulative seasonal effect. In Building Simulation (Vol. 16, No. 10, pp. 1799-1819). Beijing: Tsinghua University Press.
Dzimano, G. J. (2008). Modeling of photovoltaic systems (Master's thesis, The Ohio State University).
E. Hossain, M. R. Tür, S. Padmanaban, S. Ay and I. Khan, "Analysis and Mitigation of Power Quality Issues in Distributed Generation Systems Using Custom Power Devices," in IEEE Access, vol. 6, pp. 16816-16833, 2018, doi: 10.1109/ACCESS.2018.2814981
Etci, A., & Bilhan, A. (2021). Modeling of fixed and dual axis solar tracking system in Konya province with PVSyst. European Journal of Science and Technology, (32), 142-147.
F. Çakmak, Z. Aydoğmuş and M. R. Tür, "Mppt Control for PV Systems with Analytical Analysis Fractional Open Circuit Voltage Method," 2022 Global Energy Conference (GEC), Batman, Turkey, 2022, pp. 130-135, doi: 10.1109/GEC55014.2022.9986746.
Kılıç, M. Y., & Kurtaran, M. Photovoltaic System Design for Sustainable Energy Production and Simulation with PVsyst Program: The Case of Bursa Province. Turkish Journal of Agriculture and Natural Sciences, 11(1), 239-248.
Kumar, R., Rajoria, C. S., Sharma, A., & Suhag, S. (2021). Design and simulation of standalone solar PV system using PVsyst Software: A case study. Materials Today: Proceedings, 46, 5322-5328.
Makarova, A. (2017). Study, Design and Performance Analysis of a Grid-Connected Photovoltaic System: Case study: 5 MW Grid-Connected PV System in Namibia.
Marhraoui, S., Abbou, A., El Hichami, N., Rhaili, S. E., & Tur, M. R. (2019, November). Grid-Connected PV Using Sliding Mode Based on Incremental Conductance MPPT and VSC. In 2019 8th International Conference on Renewable Energy Research and Applications (ICRERA) (pp. 516-520). IEEE.
Messenger, R. A., & Abtahi, A. (2018). Photovoltaic systems engineering. CRC press.
Mishra, P. R., Rathore, S., & Jain, V. (2024). PVSyst enabled real time evaluation of grid connected solar photovoltaic system. International Journal of Information Technology, 16(2), 745-752.
Mohamed, M. A., Elmi, A. A., Ahmed, N. A., Mohamed, Y. H., & Siyad, A. A. (2024, January). Designing and Simulation of Three Phase Grid-Connected Photovoltaic System. In International Conference on Forthcoming Networks and Sustainability in the AIoT Era (pp. 22-31). Cham: Springer Nature Switzerland.
Mohammadi, S. A. D., & Gezegin, C. (2022). Design and simulation of grid-connected solar PV system using PVSYST, PVGIS and HOMER software. International Journal of Pioneering Technology and Engineering, 1(01), 36-41.
Özcan, Ö., & İzgi, E. (2020). Comparative Performance Analysis of Grid-Connected Photovoltaic Roof System. Kahramanmaraş Sütçü İmam University Journal of Engineering Sciences, 23(3), 127-140.
PVsyst, Features, [online], https://www.pvsyst.com/features/, [visited June 14, 2024].
Rawat, R., Chaudhary, V., Dubey, H. M., & Pandit, M. (2019, November). Performance Evaluation of 30.5 kWp On-Grid Solar System Using PVsyst. In International Conference on Sustainable and Innovative Solutions for Current Challenges in Engineering & Technology (pp. 376-388). Cham: Springer International Publishing.
Sancar, M. R., & Altinkaynak, M. (2021). Comparison of Photovoltaic Systems Designed on Different Roof Types for Isparta Province. European Journal of Science and Technology, (32), 1024-1028.
Sharma, S., Kurian, C. P., & Paragond, L. S. (2018, March). Solar PV system design using PVsyst: a case study of an academic Institute. In 2018 international conference on control, power, communication and computing technologies (ICCPCCT) (pp. 123-128). IEEE.
Siregar, Y., & Hutahuruk, Y. (2020, September). Optimization design and simulating solar PV system using PVSyst software. In 2020 4rd International Conference on Electrical, Telecommunication and Computer Engineering (ELTICOM) (pp. 219-223). IEEE.
Vidur, P. R., & Jagwani, S. (2022, January). Design and simulation of a Rooftop solar PV system Using PV syst software. In 2022 4th International Conference on Smart Systems and Inventive Technology (ICSSIT) (pp. 724-728). IEEE.

Toplam 29 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Elektrik Tesisleri
Bölüm	Makaleler
Yazarlar	Bilal Altunç Mehmet Recep Minaz 0000-0001-8046-6465
Proje Numarası	yok
Erken Görünüm Tarihi	28 Aralık 2024
Yayımlanma Tarihi	31 Aralık 2024
Gönderilme Tarihi	11 Kasım 2024
Kabul Tarihi	13 Aralık 2024
Yayımlandığı Sayı	Yıl 2024 Cilt: 5 Sayı: 2

Kaynak Göster

APA	Altunç, B., & Minaz, M. R. (2024). Modeling and Performance Analysis of a Rooftop Photovoltaic System for Batman: Impact of Seasonal Shading on Energy Efficiency. Journal of Engineering and Technology, 5(2), 1-12.

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