Application and Economic Contribution of The Solar Energy System in Agricultural Plants: Using Pvsyst Software

Year 2021, Volume: 16 Issue: 2, 89 - 96, 27.04.2021

Yusuf Doğan Meral Korkmaz

Abstract

In the developing world, the importance of energy is increasing every year. In the developing world we will see that, our need for electrical energy will not only increase in industrial enlightenment and heating, but also will increase in the transportation sector. Developed countries give importance to renewable energy sources, which are environmentally friendly, in their energy production and consumption. Electricity production from solar energy, one of the renewable energy sources, has been a very important topic for engineers, architects and scientists. Turkey is located in a great geography in terms of sun ray. In this article, a feasibility study has been done about using the solar energy potential on a breeding farm with an empty roof by using PV simulation software. With this work, the efficiency of an agricultural production that even produces energy from its roof will increase. It will also help other users.

Keywords

Energy, Renewable Energy, Solar Energy, Agricultural Plants, PVSYST Software

References

• Kandasamy, C.P., Prabu, P., and Niruba, K., (2013). Solar potential assessment using PVSYST software. In 2013 International Conference on Green Computing, Communication and Conservation of Energy (ICGCE) (pp:667-672). IEEE.
• Ramoliya, J.V., (2015). Performance evaluation of grid-connected solar photovoltaic plant using PVSYST software. Journal of Emerging Technologies and Innovative Research (JETIR), 2(2):7.
• Nwaigwe, K.N., Mutabilwa, P., and Dintwa, E., (2019). An overview of solar power (PV systems) integration into electricity grids. Materials Science for Energy Technologies, 2(3):629-633.
• Husnain-Al-Bustam, M., Zakaria Mahbub, M.M., Shuvro Shahriar, T.M., Iftakhar, U., and Abrar Saad, M., (2012). Analysis of a Standalone Photovoltaic Power Generation System Using PVSYST Software, Global Journals Inc. (USA), Vol:12
• Irwan, Y.M., Amelia, A.R., Irwanto, M., Leow, W.Z., Gomesh, N., and Safwati, I., (2015). Stand-alone photovoltaic (SAPV) system assessment using PVSYST software. Energy Procedia, 79:596-603.
• Ahsan, S., Javed, K., Rana, A.S., and Zeeshan, M., (2016). Design and cost analysis of 1 kW photovoltaic system based on actual performance in Indian scenario. Perspectives in Science, 8:642-644.
• Sharma, R., Gupta, A., Nandan, G., Dwivedi, G., and Kumar, S. (2018). Life span and overall performance enhancement of Solar Photovoltaic cell using water as coolant: A recent review. Materials Today: Proceedings, 5(9):18202-18210.
• https://mgm.gov.tr/kurumici/turkiye-guneslenme-suresi.aspx.
• Akcan, E., Kuncan, M. ve Minaz, M.R., (2020). PVsyst yazılımı ile 30 kw şebekeye bağlı fotovoltaik sistemin modellenmesi ve simülasyonu. Avrupa Bilim ve Teknoloji Dergisi, (18):248-261.
• Belmahdi, B. and El Bouardi, A., (2020). Solar Potential Assessment using PVsyst Software in the Northern Zone of Morocco. Procedia Manufacturing, 46:738-745.
• Karaağaç, M.O., Oğul, H. ve Bardak, S., (2020). Kanatlı hayvan çiftliği için güneş enerji sisteminin tasarımı ve maliyet hesabı. Düzce Üniversitesi Bilim ve Teknoloji Dergisi, 8(1):711-722.