Designing of 0.9 MWp Solar Power System Project for Kastamonu University
Year 2024,
, 335 - 345, 29.06.2024
Coşkun Karataş
,
Seçil Karatay
,
Osman Çiçek
Abstract
Today, with increasing consumption costs, costs and needs in the field of energy are increasing exponentially. In this study, a Solar Power System project has been designed at Kastamonu University in order to meet the increasing demand for electrical energy and because it is more advantageous than other power plants, has a shorter depreciation period and a shorter installation and commissioning time. Solar Energy Systems, or Solar Power Systems are cutting-edge devices made to capture solar radiation and transform it into electrical energy that can be used. Solar Power Systems are essential for creating a greener and more sustainable energy landscape as the world community continues to emphasize sustainability. It is envisaged to use 8 inverters with 1632 panels on various roofs within the Kastamonu University campus area in order to supply the energy demand. Energy costs, power plant installation fees, depreciation process and exemptions are also cost within the scope of this study. It is concluded that approximately one third of the energy needs of Kastamonu University will be met with the proposed project.
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Year 2024,
, 335 - 345, 29.06.2024
Coşkun Karataş
,
Seçil Karatay
,
Osman Çiçek
References
- Aksoy, M. H., & Ispir, M. (2023). Techno-Economic Feasibility of Different Photovoltaic Technologies. Applied Engineering Letters, 8(1), 1-9. https://doi.org/10.18485/aeletters.2023.8.1.1
- Arslan, F. (2016, May 20-21). The Renewable Energy Potential in Kastamonu. In: E. Turan, A. Çağlar, O. Y. Bayraktar, G. Sağlam Çitoğlu (Eds.), Proceedings of the 1st International Abana Symposium, (pp. 321-335), Kastamonu.
- Benjamins, S., Williamson, B., Billing, S.-L., Yuan, Z., Collu, M., Fox, C., Hobbs, L., Masden, E. A., Cottier-Cook, E. J., & Wilson, B. (2024). Potential environmental impacts of floating solar photovoltaic systems. Renewable and Sustainable Energy Reviews, 199, 114463. https://doi.org/10.1016/j.rser.2024.114463
- Cicek, O., Millad, M. A. M., & Erken, F. (2019). Energy Prediction Based on Modelling and Simulation Analysis of an Actual Grid-Connected Photovoltaic Power Plant in Turkey. European Journal of Technique, 9(2), 159-174. https://doi.org/10.36222/ejt.593250
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- Duffie, J. A., & Beckman, W. A. (2013). Solar Engineering of Thermal Processe. (Fourth Edition). Hoboken: John Wiley & Sons.
- Dunlop, J. P. (2012). Photovoltaic Systems (Third Edition). Illinois: American Technical Publishers.
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- EIGM (n.d.). Güneş Enerjisi Potansiyel Atlası. Enerji İşleri Genel Müdürlüğü. (Accessed:03/06/2024) https://gepa.enerji.gov.tr/MyCalculator/
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- Kavitha, M., Immanuel, D. G., Rex, C. R. E. S., Meenakshi, V., Pushpavalli, M., Singari, S., & Baskaran, V. (2021). Energy Forecasting of Grid Connected Roof Mounted Solar PV Using PV*SOL. In: Proceedings of the 2021 International Conference on Innovative Computing, Intelligent Communication and Smart Electrical Systems (ICSES), (pp. 1-6). Chennai, India. https://doi.org/10.1109/ICSES52305.2021.9633888
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- Park, C., & Allaby, M. (2017). A Dictionary of Environment and Conservation (Third Edition). Oxford: Oxford University Press. https://doi.org/10.1093/acref/9780191826320.001.0001
- PV*SOL. (n.d.). PV*SOL. (Accessed:14/03/2024) https://pvsol.software/en/
- Sharma, R., & Gidwani, L. (2017, April 20-21). Grid connected solar PV system design and calculation by using PV*SOL premium simulation tool for campus hostels of RTU Kota. In: Proceedings of the 2017 International Conference on Circuit, Power and Computing Technologies (ICCPCT), (pp. 1-5). Kollam, India. https://doi.org/10.1109/ICCPCT.2017.8074315
- Solanki, C. S. (2013). Solar Photovoltaic Technology and Systems: A Manual for Technicians, Trainers and Engineers. Delhi: PHI Learning.
- Soomar, A. M., Hakeem, A., Messaoudi, M., Musznicki, P., Iqbal, A., & Czapp, S. (2022). Solar Photovoltaic Energy Optimization and Challenges. Frontiers in Energy Research, 10, 1-18. https://doi.org/10.3389/fenrg.2022.879985
- Thomas, C., Jennings, P., & Singh, D. (2007). New Markets for Solar Photovoltaic Power Systems. In: P. Jennings, G. Ho, K. Mathew, & C. V. Nayar (Eds.), Proceedings of the International Conference on Renewable Energy for Sustainable Development, Vol. 941, Issue: 1, (pp. 142-153). Fremantle, Western Australia. https://doi.org/10.1063/1.2806080
- URL1 (2022, June 29). Çevresel Etki Değerlendirmesi Yönetmeliği. Official Journal of Turkish Republic (Resmî Gazete), Number: 31907.
- URL2 (n.d.). Güneş Enerji Santralleri. Enerji Atlası. (Accessed:03/04/2024) https://www.enerjiatlasi.com/gunes/
- Weiss, P. (1962). Renewable Resources, A Report to the Committee on Natural Resources of the National Academy of Sciences-National Research Council. Washington: National Academy of Science.
- Zheng, C., & Kammen, D. M. (2014). An innovation-focused roadmap for a sustainable global photovoltaic industry. Energy Policy, 67, 159-169. https://doi.org/10.1016/j.enpol.2013.12.006