Yozgat Bozok University Solar Power Plant, Power, Cost and Depreciation Period Calculation
Year 2021,
Volume: 17 Issue: 2, 141 - 150, 31.12.2021
Talip Çay
,
Mustafa Yaz
,
Cemil Altın
Abstract
Most of the energy in our world is met by fossil fuels. It is a disadvantage for fossil fuels that fossil fuels are limited and not environmentally friendly. Therefore, especially in the last 20 years, countries have directed their investments to renewable energy resources that are cheap, environmentally friendly, low maintenance costs and reduce foreign dependency. The use of RES in our country is below the world average. In this study, SPP (Solar Power Plant) power, cost and depreciation period were calculated by looking at the annual electricity consumption amount of YOBU (Yozgat Bozok University) in 2019 and the incentive charts in the law numbered 5346.
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Year 2021,
Volume: 17 Issue: 2, 141 - 150, 31.12.2021
Talip Çay
,
Mustafa Yaz
,
Cemil Altın
References
- [1]. E.Zarda, M.E.Rojas, L. Gonzalez, J.M.Caballero, F.RuedacA “The first pre-commercial DSG solar power plant” Solar Energy 80 (2006) 1270–1276
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- [3]. S. Seme, K. Sredensek, Z Praunseis, B.Stumberger, M. Hadziselimoviç “Optimal price of electricity of solar power plants and small hydro power plants e Technical and economical part of investments” University of Maribor, Faculty of Energy Technology, Energy 157, 87-95, 2018
- [4]. M.Güntürk, “Economic feasibility of solar power plants based on PV module with levelized cost analysis”
- [5]. T. Taner, A.S.Dalkılıç “A Feasibility Study of Solar Energy-Techno Economic Analysis From Aksaray City, Turkey” Yildiz Technical University Press, 2017
- [6]. A.Carrion, A. E. Estrella, F. A. Dols, A. R. Riado “The electricity production capacity of photovoltaic power plants and the selection of solar energy sites in Andalusia (Spain)” ScienceDirect, 2008, 545-552
- [7]. O. Abedinia, N. Amjady, N. Ghadimi “Solar energy forecasting based on hybrid neural network and improved metaheuristic algorithm” Wiley Online Library, 2017, 109
- [8]. D. Lauka, I. Pakere, D. Blumbegra “First solar power plant in Latvia. Analysis of operational data” ScienceDrect, 2018, 162-165
- [9]. A.G. Imenes, D. Buie, D.R. Mills, P. Schramek, S.G. Bosi “A new strategy for improved spectral performance in solar power plants” ScienceDirect, 2006, 1262-1269
- [10]. V. Çoban, “Solar energy plant project selection with AHP decision making method based on hesitant fuzzy linguistic evaluation” Complex Intelligent Systems (2020) 6:507–529
- [11]. Y. S. Isler, M. Salihmuhsin, “Güneş Enerjisi Santrallerinde Sehpa Seçiminin Performansa Etkisinin Analiz Edilmesi Ve Sıcaklık Etkisi” El-Cezeri Journal of Science and Engineering, 2019, 97-107
- [12]. Y. Alcan, M. Demir, S. Duman, “Sinop İlinin Güneş Enerjisinden Elektrik Üretim Potansiyelinin Ülkemiz Ve Almanya İle Karşılaştırarak İncelenmesi” El-Cezeri Journal of Science and Engineering, 2018, 35-44
- [13]. S. Bahceci, F. Daldaban, “Dağıtım Şebekelerinde Güneş Panelleri ve Enerji Depolama Sistemi Uygulaması” El-Cezeri Journal of Science and Engineering, 2017, 308-313
- [14]. European Commission Photovoltaıc Geographıcal Informatıon System https://re.jrc.ec.europa.eu/pvg_tools/en/tools.html
- [15]. “Yenilenebilir Enerji Kaynaklarının Elektrik Enerjisi Üretimi Amaçlı Kullanımına İlişkin Kanun” https://www.mevzuat.gov.tr/MevzuatMetin/1.5.5346.pdf
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