Araştırma Makalesi
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Farklı Fotovoltaik Benzetim Yazılımlarının Karşılaştırmalı Analizi: 5,1 kWp Şebekeye Bağlı bir Fotovoltaik Sistemin Performansının Analizine İlişkin Örnek Çalışma

Yıl 2021, Sayı: 32, 816 - 826, 31.12.2021
https://doi.org/10.31590/ejosat.1040126

Öz

Fotovoltaik (FV) sistemlerin kurulum maliyetlerinin yüksek olması sistemlerin yaygınlaşmasının önündeki en önemli engeldir. Bu nedenle günümüzde PV sistemlerinin eniyilenmesi konusunda çeşitli çalışmalar yapılmaktadır. FV sistemler panel eğim açısı, panel sayısı, panel tipi, panel yapısı, evirici ve akü grubu kapasitesi gibi ölçütler açısından eniyilenebilmektedir. FV sistemlerini en uygun şekilde tasarlamak için çeşitli kullanıcı dostu yazılımlar kullanılmaktadır. Bu yazılımlar, iklim verilerini kullanarak enerji üretimini tahmin eder ve buna göre ekonomik veriler sağlar. Ancak FV sistemlerin verimliliği iklim koşullarına bağlı olduğundan bu verilerin güvenilirliği değişmektedir. Bu makalede, güneş enerjisi sektöründe yaygın olarak kullanılan PV*SOL, PVsyst, RETScreen ve PVGIS yazılımlarının Kocaeli İli iklim koşullarında etkinliğinin değerlendirilmesi amaçlanmıştır. Kocaeli Üniversitesi Teknoloji Fakültesi binasına kurulan 5,1kWp çatı üstü PV sisteminin benzetimi gerçeğine uygun olarak bu yazılımlarla yapılarak hangi yazılımın gerçek enerji üretim verilerini tahmin etmede daha başarılı olduğu ortaya çıkarılmıştır. Karşılaştırmaya göre PV*SOL ve PVsyst ile elde edilen sonuçlar gerçek değerlere en yakın olduğundan en güvenilir yazılımlar olarak değerlendirilmiştir.

Kaynakça

  • Yılmaz, M. C. (2019). The renewable energy transition in Turkey.
  • Sharma, R., & Goel, S. (2017). Performance analysis of a 11.2 kWp roof top grid-connected PV system in Eastern India. Energy Reports, 3, 76-84.
  • Dey, D., & Subudhi, B. (2020). Design, simulation and economic evaluation of 90 kW grid connected Photovoltaic system. Energy Reports, 6, 1778-1787.
  • Srivastava, R., & Giri, V. K. (2016). Design of grid connected PV system using PVsyst. i-Manager's Journal on Electrical Engineering, 10(1), 14.
  • Milosavljević, D. D., Pavlović, T. M., & Piršl, D. S. (2015). Performance analysis of A grid-connected solar PV plant in Niš, republic of Serbia. Renewable and Sustainable Energy Reviews, 44, 423-435.
  • Prasad, B. K. K., Reddy, K. P., Rajesh, K., & Reddy, P. V. (2020). Design and simulation analysis of 12.4 kWp grid connected photovoltaic system by using PVsyst software. International Journal of Recent Technology and Engineering, 8(5), 2859-2864.
  • Ahmed, O. A., Habeeb, W. H., Mahmood, D. Y., Jalal, K. A., & Sayed, H. K. (2019). Design and performance analysis of 250 kw grid-connected photovoltaic system in iraqi environment using pvsyst software. Indonesian Journal of Electrical Engineering and Informatics (IJEEI), 7(3), 415-421.
  • Sharma, S., Kurian, C. P., & Paragond, L. S. (2018). Solar PV system design using PVsyst: a case study of an academic Institute. Paper presented at the 2018 International Conference on Control, Power, Communication and Computing Technologies (ICCPCCT).
  • Kumar, K. A., Sundareswaran, K., & Venkateswaran, P. (2014). Performance study on a grid connected 20 kWp solar photovoltaic installation in an industry in Tiruchirappalli (India). Energy for Sustainable Development, 23, 294-304.
  • Dondariya, C., Porwal, D., Awasthi, A., Shukla, A. K., Sudhakar, K., SR, M. M., & Bhimte, A. (2018). Performance simulation of grid-connected rooftop solar PV system for small households: A case study of Ujjain, India. Energy Reports, 4, 546-553.
  • Barua, S., Prasath, R. A., & Boruah, D. (2017). Rooftop solar photovoltaic system design and assessment for the academic campus using PVsyst software. International Journal of Electronics and Electrical Engineering, 5(1), 76-83.
  • PV*SOL, “PV*SOL Software.” Online Availability: https://valentin-software.com/en/products/pvsol-premium/ Last Access date: 29 November 2021.
  • PVGIS, “PVGIS Software.” Online Availability: https://ec.europa.eu/jrc/en/pvgis Last Access date: 29 November 2021.
  • PVSyst, “PVSyst Software.” Online Availability: https://www.pvsyst.com/fr/ Last Access date: 29 November 2021.
  • RETscreen software package online availability: https://www.nrcan.gc.ca/maps-tools-and-publications/tools/modelling-tools/retscreen/7465 Last Access date: 29 November 2021.
  • Kumar, N. M., Kumar, M. R., Rejoice, P. R., & Mathew, M. (2017). Performance analysis of 100 kWp grid connected Si-poly photovoltaic system using PVsyst simulation tool. Energy Procedia, 117, 180-189.
  • Application Note How to Design a SolarEdge System Using PVsyst online availability: http://docplayer.net/20962171-Application-note-how-to-design-a-solaredge-system-using-pvsyst.html Last Access date: 29 November 2021.
  • Fronius solar web portal; https://www.solarweb.com/ Last Access date: 29 November 2021.

Comparative Analysis of Different Photovoltaic Simulation Software: Case Study on Analyzing the Performance of a 5,1 kWp Grid Connected Photovoltaic System

Yıl 2021, Sayı: 32, 816 - 826, 31.12.2021
https://doi.org/10.31590/ejosat.1040126

Öz

The high installation costs of photovoltaic (PV) systems are the most important obstacle in the spread of systems; that’s why various studies are carried out on the optimization of PV systems today. Thus, PV systems can be optimized in terms of criteria such as inclination angle, PV module number, module type, module construction structure, and inverter. Different user-friendly software is used to design PV systems. Such software estimates energy production using climate data and provides economic data accordingly. However, the reliability of these data varies as the productivity of photovoltaic systems depends on climatic conditions. In this paper, it is aimed to evaluate the effectiveness of PV*SOL, PVsyst, RETScreen, and PVGIS software, widely used in the solar energy sector, under the climatic conditions of Kocaeli province. A 5,1kWp roof-top PV system installed on Kocaeli University Technology Faculty building is simulated with these programs to reveal which software is more successful in predicting real energy production data. According to comparison, PV*SOL and PVsyst are evaluated as the most reliable software since the yields obtained are the closest to the real energy values.

Kaynakça

  • Yılmaz, M. C. (2019). The renewable energy transition in Turkey.
  • Sharma, R., & Goel, S. (2017). Performance analysis of a 11.2 kWp roof top grid-connected PV system in Eastern India. Energy Reports, 3, 76-84.
  • Dey, D., & Subudhi, B. (2020). Design, simulation and economic evaluation of 90 kW grid connected Photovoltaic system. Energy Reports, 6, 1778-1787.
  • Srivastava, R., & Giri, V. K. (2016). Design of grid connected PV system using PVsyst. i-Manager's Journal on Electrical Engineering, 10(1), 14.
  • Milosavljević, D. D., Pavlović, T. M., & Piršl, D. S. (2015). Performance analysis of A grid-connected solar PV plant in Niš, republic of Serbia. Renewable and Sustainable Energy Reviews, 44, 423-435.
  • Prasad, B. K. K., Reddy, K. P., Rajesh, K., & Reddy, P. V. (2020). Design and simulation analysis of 12.4 kWp grid connected photovoltaic system by using PVsyst software. International Journal of Recent Technology and Engineering, 8(5), 2859-2864.
  • Ahmed, O. A., Habeeb, W. H., Mahmood, D. Y., Jalal, K. A., & Sayed, H. K. (2019). Design and performance analysis of 250 kw grid-connected photovoltaic system in iraqi environment using pvsyst software. Indonesian Journal of Electrical Engineering and Informatics (IJEEI), 7(3), 415-421.
  • Sharma, S., Kurian, C. P., & Paragond, L. S. (2018). Solar PV system design using PVsyst: a case study of an academic Institute. Paper presented at the 2018 International Conference on Control, Power, Communication and Computing Technologies (ICCPCCT).
  • Kumar, K. A., Sundareswaran, K., & Venkateswaran, P. (2014). Performance study on a grid connected 20 kWp solar photovoltaic installation in an industry in Tiruchirappalli (India). Energy for Sustainable Development, 23, 294-304.
  • Dondariya, C., Porwal, D., Awasthi, A., Shukla, A. K., Sudhakar, K., SR, M. M., & Bhimte, A. (2018). Performance simulation of grid-connected rooftop solar PV system for small households: A case study of Ujjain, India. Energy Reports, 4, 546-553.
  • Barua, S., Prasath, R. A., & Boruah, D. (2017). Rooftop solar photovoltaic system design and assessment for the academic campus using PVsyst software. International Journal of Electronics and Electrical Engineering, 5(1), 76-83.
  • PV*SOL, “PV*SOL Software.” Online Availability: https://valentin-software.com/en/products/pvsol-premium/ Last Access date: 29 November 2021.
  • PVGIS, “PVGIS Software.” Online Availability: https://ec.europa.eu/jrc/en/pvgis Last Access date: 29 November 2021.
  • PVSyst, “PVSyst Software.” Online Availability: https://www.pvsyst.com/fr/ Last Access date: 29 November 2021.
  • RETscreen software package online availability: https://www.nrcan.gc.ca/maps-tools-and-publications/tools/modelling-tools/retscreen/7465 Last Access date: 29 November 2021.
  • Kumar, N. M., Kumar, M. R., Rejoice, P. R., & Mathew, M. (2017). Performance analysis of 100 kWp grid connected Si-poly photovoltaic system using PVsyst simulation tool. Energy Procedia, 117, 180-189.
  • Application Note How to Design a SolarEdge System Using PVsyst online availability: http://docplayer.net/20962171-Application-note-how-to-design-a-solaredge-system-using-pvsyst.html Last Access date: 29 November 2021.
  • Fronius solar web portal; https://www.solarweb.com/ Last Access date: 29 November 2021.
Toplam 18 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Feten Lımem 0000-0001-8788-2912

Serkan Sezen 0000-0001-7273-7376

Yayımlanma Tarihi 31 Aralık 2021
Yayımlandığı Sayı Yıl 2021 Sayı: 32

Kaynak Göster

APA Lımem, F., & Sezen, S. (2021). Comparative Analysis of Different Photovoltaic Simulation Software: Case Study on Analyzing the Performance of a 5,1 kWp Grid Connected Photovoltaic System. Avrupa Bilim Ve Teknoloji Dergisi(32), 816-826. https://doi.org/10.31590/ejosat.1040126