A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method

IŞIKER, Yusuf; Aktacir, Mehmet Azmi; YILDIRIM, Erdal

doi:10.26701/ems.763303

A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method

Mehmet Azmi Aktacir, (Harran Üniversitesi, Mühendislik Fakültesi, Makine Mühendisliği Bölümü, Şanlıurfa, Türkiye)

Erdal Yıldırım, (Harran Üniversitesi, Teknik Bilimler Meslek Yüksekokulu, Şanlıurfa, Türkiye)

Yusuf Işıker (Harran Üniversitesi, Mühendislik Fakültesi, Makine Mühendisliği Bölümü, Şanlıurfa, Türkiye)

European Mechanical Science

3 0

Yıl: 2020 Cilt: 4 Sayı: 4 Sayfa Aralığı: 142 - 151 Metin Dili: İngilizce DOI: 10.26701/ems.763303 İndeks Tarihi: 22-01-2021

A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method

Öz:

The performance of panels for PV system design is determined according to the performance values in standardtest conditions specified in the panel catalog, without knowing the performance under actual operatingconditions. However, the operating performance of the PV panel depends on meteorological characteristics ofplace where the PV system is installed. Especially, if outside temperature values are above test conditions, theefficiency of the PV panel decreases and generation losses are observed. In this study, performance parametersof photovoltaic panel were calculated for four different PV panel technologies only by using their cataloguevalues like NOCT temperature (the cell temperature under conditions as solar radiation 800 W/m2, surfacetemperature 20°C, wind speed 1 m/s and air mass 1.5), power-temperature coefficient etc. For this purpose, realworking conditions were simulated using 3-year climate data for the meteorological conditions of Şanlıurfa,Turkey. In the end, PV panel efficiency, electricity generation values and performance ratios were calculatedin accordance with the temperature. According to the results obtained, the PV panels’ performance ratiosdecreased up to 0.75 during the summer months. The highest unit energy generation was achieved with thinfilm PV technology.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1] Gedik, E. (2016). Experimental investigation of module temperature effect on photovoltaic panels’ efficiency, Journal of Polytechnic, 19 (4): 569-576.
[2] Jerez, S., Tobin, I., Vautard, R., Montávez, J. P., López-Romero, J. M., Thais, F., ... , Nikulin, G. (2015). The impact of climate change on photovoltaic power generation in Europe. Nature communications, 6(1), 1-8.
[3] Skoplaki, E., Palyvos, J. A. (2009). On the temperature dependence of photovoltaic module electrical performance: A review of efficiency/power correlations. Solar energy, 83(5), 614-624.
[4] Makrides, G. et al. (2012). Performance of Photovoltaics Under Actual Operating Conditions, Third Generation Photovoltaics. Dr. Vasilis Fthenakis (Ed.), Intechopen.
[5] Razak, A., Irwan, Y. M., Leow, W. Z., Irwanto, M., Safwati, I., Zhafarina, M. (2016). Investigation of the effect temperature on photovoltaic (PV) panel output performance. International Journal on Advanced Science, Engineering and Information Technology, 6(5): 682-688.
[6] Hasanuzzaman, M., Malek, A. B. M. A., Islam, M. M., Pandey, A. K., Rahim, N. A. (2016). Global advancement of cooling technologies for PV systems: a review. Solar Energy, 137, 25-45.
[7] Kandeal, A. W., Thakur, A. K., Elkadeem, M. R., Elmorshedy, M. F., Ullah, Z., Sathyamurthy, R., Sharshir, S. W. (2020). Photovoltaics performance improvement using different cooling methodologies: A State-of-Art Review. Journal of Cleaner Production, 122772.
[8] Piotrowski, L. J., Simões, M. G., Farret, F. A. (2020). Feasibility of water-cooled photovoltaic panels under the efficiency and durability aspects. Solar Energy, 207: 103-109.
[9] Ma, T., Li, Z., Zhao, J. (2019). Photovoltaic panel integrated with phase change materials (PV-PCM): technology overview and materials selection. Renewable and Sustainable Energy Reviews, 116, 109406.
[10] Thaib, R., Rizal, S., Mahlia, T. M. I., Pambudi, N. A. (2018). Experimental analysis of using beeswax as phase change materials for limiting temperature rise in building integrated photovoltaics. Case studies in thermal engineering, 12, 223-227.
[11] Huld, T., Amillo, A. M. G. (2015). Estimating PV Module Performance over Large Geographical Regions: The Role of Irradiance, Air Temperature, Wind Speed and Solar Spectrum, Energies, 8: 5159- 5181.
[12] Ali, M., Iqbal, M. H., Sheikh, N. A., Ali, H. M., Shehryar Manzoor, M., Khan, M. M., Tamrin, K. F. (2017). Performance investigation of air velocity effects on pv modules under controlled conditions. International Journal of Photoenergy, 2017.
[13] Schwingshackl, C. (2013). Wind effect on PV module temperature: analysis of different techniques for an accurate estimation, Energy Procedia, 40: 77–86.
[14] Dubey, S., Sarvaiya, J. N., Seshadri, B. (2013). Temperature dependent photovoltaic (PV) efficiency and its effect on PV production in the world–a review. Energy Procedia, 33: 311-321.
[15] Chakraborty, S., et al. (2017). Mathematical method to find best suited PV technology for different climatic zones of India, International Journal of Energy and Environmental Engineering. 8: 153–166.
[16] Jiang, Y., Lu, L. (2016). Experimentally investigating the effect of temperature differences in the particle deposition process on solar photovoltaic (PV) modules, Sustainability, 8: 1091-1100.
[17] Performance ratio (2020, October 15) Retrieved from http://files. sma.de/dl/7680/Perfratio-TI-en-11.pdf
[18] Jansson, E., Elfving, G. (2017). Supervisor: Joakim Widén, Modelling extensive solar power production in urban and rural areas, Faculty of Science and Technology, Uppsala University.
[19] Yaka, E. et al. (2014). Rectified Solar Energy Potential Atlas of Southeastern Anatolia Region. Solar TR 2014, Solar Conference & Exhibition proceeding, 371-375. İzmir, Turkey.
[20] Global Horizontal Irradiance (2020, October 15) Retrieved from http://www.solar-med-atlas.org/solarmed-atlas/map.htm#p=37.822802,36.386719&t=ghi
[21] Map, Global Horizontal Irradiance (2020, October 15) Retrieved from http://www.solar-med-atlas.org/solarmed-atlas/map.htm#p=37.822802,36.386719&t=ghi
[22] Panasonic Solar, HIT (2020, October 15) Retrieved from https://lstr. panasonic.com/panel/upload/panasonic-gunes-panelleri.pdf
[23] First Solar Series 4™ (2020, October 15) Retrieved from http://fortuneenergy.net/content/sunmodule-plus-mono-5-busbar-datasheet. pdf http://www.firstsolar.com/-/media/First-Solar/Technical-Documents/Series-4-Datasheets/Series-4V2-Datasheet.ashx
[24] Sunmodule Plus, SW 290-310 (2020, October 15) Retrieved from Mono http://fortuneenergy.net/content/sunmodule-plus-mono-5-busbar-datasheet.pdf
[25] Yingli Solar YGE 60 Cell Seris 2 (2020, October 15) Retrieved from http://www.yinglisolar.com/static/assets/uploads/products/downloads/DS_YGE60CELL%20%20SERIES%202%20-29b_35mm_EN_ EN_20200407_V04.pdf
[26] Kamuyu, W. C. L., Lim, J. R., Won, C. S., Ahn, H. K. (2018). Prediction Model of Photovoltaic Module Temperature for Power Performance of Floating PVs, Energies, 11, 447.
[27] Jakhrani, A.Q. et al. (2011). Comparison of Solar Photovoltaic Module Temperature Models, World Applied Sciences Journal 14 (Special Issue of Food and Environment), 01-08.
[28] Ross, R. G. (1980). Flat-plate photovoltaic array design optimization, 14th IEEE Photovoltaic Specialists Conference, San Diego, CA, 1126-1132.

APA	Aktacir M, YILDIRIM E, IŞIKER Y (2020). A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. , 142 - 151. 10.26701/ems.763303
Chicago	Aktacir Mehmet Azmi,YILDIRIM Erdal,IŞIKER Yusuf A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. (2020): 142 - 151. 10.26701/ems.763303
MLA	Aktacir Mehmet Azmi,YILDIRIM Erdal,IŞIKER Yusuf A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. , 2020, ss.142 - 151. 10.26701/ems.763303
AMA	Aktacir M,YILDIRIM E,IŞIKER Y A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. . 2020; 142 - 151. 10.26701/ems.763303
Vancouver	Aktacir M,YILDIRIM E,IŞIKER Y A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. . 2020; 142 - 151. 10.26701/ems.763303
IEEE	Aktacir M,YILDIRIM E,IŞIKER Y "A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method." , ss.142 - 151, 2020. 10.26701/ems.763303
ISNAD	Aktacir, Mehmet Azmi vd. "A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method". (2020), 142-151. https://doi.org/10.26701/ems.763303

APA	Aktacir M, YILDIRIM E, IŞIKER Y (2020). A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. European Mechanical Science, 4(4), 142 - 151. 10.26701/ems.763303
Chicago	Aktacir Mehmet Azmi,YILDIRIM Erdal,IŞIKER Yusuf A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. European Mechanical Science 4, no.4 (2020): 142 - 151. 10.26701/ems.763303
MLA	Aktacir Mehmet Azmi,YILDIRIM Erdal,IŞIKER Yusuf A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. European Mechanical Science, vol.4, no.4, 2020, ss.142 - 151. 10.26701/ems.763303
AMA	Aktacir M,YILDIRIM E,IŞIKER Y A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. European Mechanical Science. 2020; 4(4): 142 - 151. 10.26701/ems.763303
Vancouver	Aktacir M,YILDIRIM E,IŞIKER Y A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method. European Mechanical Science. 2020; 4(4): 142 - 151. 10.26701/ems.763303
IEEE	Aktacir M,YILDIRIM E,IŞIKER Y "A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method." European Mechanical Science, 4, ss.142 - 151, 2020. 10.26701/ems.763303
ISNAD	Aktacir, Mehmet Azmi vd. "A Detailed Analysis of Daily, Seasonal and Yearly Performance Values of Photovoltaic Modules Using by a Simplified Method". European Mechanical Science 4/4 (2020), 142-151. https://doi.org/10.26701/ems.763303