THE ANALYSIS OF PHOTOVOLTAIC PANEL SYSTEMS
Year 2021,
, 13 - 22, 30.04.2021
Ramazan Burak Domurcuk
Mustafa Asker
,
Pınar Demircioğlu
,
İsmail Böğrekci
Abstract
Most of the energy needed today is obtained from fossil fuels. Both the damages that these fuels cause to the environment and the limited resources have led to the search for alternative energy sources. Solar energy is one of the remarkable renewable energy sources, and is considered as one of the solution to meet the power requirement and to protect the environment. Photovoltaic panel systems are one of the substantial renewable energy sources which are rapidly becoming widespread due to its advantage such as converting directly solar energy into electrical energy.
In this study, two different types photovoltaic panels such as monocrystalline and polycrystalline solar panels are examined experimentally and the performance of these panels are assessed. The analysis is carried out for the city of Aydın in Turkey. The experimental measurements are achieved under weather condition of Aydın in August and September months. Besides, the solar radiation is measured using pyranometer device. The panel surface temperature is measured using K type thermocouple. The main purpose of this work is to determine the most suitable panel type for city of Aydın by means of electric power generation and thus to provide scientific data to the investors and companies. The results indicate that for monocrystalline and polycrystalline solar panels, the obtained maximum power are 49.74 W and 46.13 W respectively. In addition, the maximum efficiency of monocrystalline and polycrystalline solar panels is determined to be 13.94% and 12.13%, respectively.
Supporting Institution
Aydın Adnan Menderes Üniversitesi Bilimsel Araştırma Projeleri (BAP)
Thanks
This study was funded by Aydın Adnan Menderes University Scientific Research Projects (BAP) with project number MF-17024. The authors would like to acknowledge the support provided by BAP commission and staff.
References
- 1. Al-Rousan, N., Isa, N.A.M., Desa, M.K.M., “Advances in solar photovoltaic tracking systems: A review”, Renewable and Sustainable Energy Reviews, 82, Pages 2548–2569, 2018.
- 2. Taşçıoğlu, A., Taşkın, O., Vardar, A., “A power case study for monocrystalline and polycrystalline solar panels in Bursa city”, Internatıonal Journal of Photoenergy, Vol.2016, Issue Article ID 7324138, Pages 1-7, 2016.
- 3. Zaraket, J., Aillerie, M., Salame, C., “Standards and testing experiments for a photovoltaic module”, Journal of Energy Procedia, Vol.199, Issue 1, Pages 702-708, 2017.
- 4. Hafez, A.Z., Soliman, A., El-Metwally, K.A., Ismail, I. M., "Tilt and Azimuth Angles in Solar Energy Applications - A review", Renewable and Sustainable Energy Reviews, Vol. 77, Pages 147-168, 2017.
- 5. Er, Z., Rouabah, Z., Kızılkan, G., Orken, A.T., “Standards and testing experiments for a photovoltaic module”, European Journal of Science and Technology, Special Issue ISSN:2148-2683, Pages 12-15, 2018.
- 6. Alaaeddin, M.H., Sapuan, S.M., Zuhri, M.Y.M., Zainudin E.S., Faris M. AL-Oqla. “Photovoltaic applications: Status and manufacturing prospects”, Journal of Renewable and Sustainable Energy Reviews, 102(2019): 318-332, 2019.
- 7. Senthil Kumar, M., Balasubramanian K.R., Maheswari L., “Effect of temperature on solar photovoltaic panel efficiency”, International Journal of Engineering and Advanced Technology, 8(6): ISSN: 2249-8958, 2019.
- 8. Ogbulezie, J.C., Njok, A.O., Panjwani, M.K., Panjwani, S. K., “The impact of high temperature and irradiance source on the efficiency of polycrystalline photovoltaic panel in a controlled environment”, International Journal of Electrical and Computer Engineering, 10(4): 3942-3947, 2020.
- 9. Shafique, M., Luo, X., Zuo, J., “Photovoltaic-green roofs: A review of benefits, limitations, and trends”, Journal of Solar Energy, 202(2020): 485-497, 2020.
- 10. Chander, S., Purohit, A., Sharma, A., Nehra, S.P., Dhaka, M.S., “A Study on Photovoltaic Parameters of Monocrystalline Silicon Solar Cell with Cell Temperature”, Journal of Energy Reports, Pages 104-109, 2015.
- 11. Tiwari, G.N, Shyam A.T.,” Handbook of Solar Energy Theory, Analysis and Applications”, Springer, Berlin, 2016.
THE ANALYSIS OF PHOTOVOLTAIC PANEL SYSTEMS
Year 2021,
, 13 - 22, 30.04.2021
Ramazan Burak Domurcuk
Mustafa Asker
,
Pınar Demircioğlu
,
İsmail Böğrekci
Abstract
Most of the energy needed today is obtained from fossil fuels. Both the damages that these fuels cause to the environment and the limited resources have led to the search for alternative energy sources. Solar energy is one of the remarkable renewable energy sources, and is considered as one of the solution to meet the power requirement and to protect the environment. Photovoltaic panel systems are one of the substantial renewable energy sources which are rapidly becoming widespread due to its advantage such as converting directly solar energy into electrical energy.
In this study, two different types photovoltaic panels such as monocrystalline and polycrystalline solar panels are examined experimentally and the performance of these panels are assessed. The analysis is carried out for the city of Aydın in Turkey. The experimental measurements are achieved under weather condition of Aydın in August and September months. Besides, the solar radiation is measured using pyranometer device. The panel surface temperature is measured using K type thermocouple. The main purpose of this work is to determine the most suitable panel type for city of Aydın by means of electric power generation and thus to provide scientific data to the investors and companies. The results indicate that for monocrystalline and polycrystalline solar panels, the obtained maximum power are 49.74 W and 46.13 W respectively. In addition, the maximum efficiency of monocrystalline and polycrystalline solar panels is determined to be 13.94% and 12.13%, respectively.
References
- 1. Al-Rousan, N., Isa, N.A.M., Desa, M.K.M., “Advances in solar photovoltaic tracking systems: A review”, Renewable and Sustainable Energy Reviews, 82, Pages 2548–2569, 2018.
- 2. Taşçıoğlu, A., Taşkın, O., Vardar, A., “A power case study for monocrystalline and polycrystalline solar panels in Bursa city”, Internatıonal Journal of Photoenergy, Vol.2016, Issue Article ID 7324138, Pages 1-7, 2016.
- 3. Zaraket, J., Aillerie, M., Salame, C., “Standards and testing experiments for a photovoltaic module”, Journal of Energy Procedia, Vol.199, Issue 1, Pages 702-708, 2017.
- 4. Hafez, A.Z., Soliman, A., El-Metwally, K.A., Ismail, I. M., "Tilt and Azimuth Angles in Solar Energy Applications - A review", Renewable and Sustainable Energy Reviews, Vol. 77, Pages 147-168, 2017.
- 5. Er, Z., Rouabah, Z., Kızılkan, G., Orken, A.T., “Standards and testing experiments for a photovoltaic module”, European Journal of Science and Technology, Special Issue ISSN:2148-2683, Pages 12-15, 2018.
- 6. Alaaeddin, M.H., Sapuan, S.M., Zuhri, M.Y.M., Zainudin E.S., Faris M. AL-Oqla. “Photovoltaic applications: Status and manufacturing prospects”, Journal of Renewable and Sustainable Energy Reviews, 102(2019): 318-332, 2019.
- 7. Senthil Kumar, M., Balasubramanian K.R., Maheswari L., “Effect of temperature on solar photovoltaic panel efficiency”, International Journal of Engineering and Advanced Technology, 8(6): ISSN: 2249-8958, 2019.
- 8. Ogbulezie, J.C., Njok, A.O., Panjwani, M.K., Panjwani, S. K., “The impact of high temperature and irradiance source on the efficiency of polycrystalline photovoltaic panel in a controlled environment”, International Journal of Electrical and Computer Engineering, 10(4): 3942-3947, 2020.
- 9. Shafique, M., Luo, X., Zuo, J., “Photovoltaic-green roofs: A review of benefits, limitations, and trends”, Journal of Solar Energy, 202(2020): 485-497, 2020.
- 10. Chander, S., Purohit, A., Sharma, A., Nehra, S.P., Dhaka, M.S., “A Study on Photovoltaic Parameters of Monocrystalline Silicon Solar Cell with Cell Temperature”, Journal of Energy Reports, Pages 104-109, 2015.
- 11. Tiwari, G.N, Shyam A.T.,” Handbook of Solar Energy Theory, Analysis and Applications”, Springer, Berlin, 2016.