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مقالات فارسیISIکنفرانسهاژورنالها

Techno-economic and Environmental Analysis of Floating Photovoltaic Power Plants: A case Study of Iran

محل انتشار: دوفصلنامه انرژی های تجدید پذیر و کاربردها، دوره: 4، شماره: 1
سال انتشار: 1402
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 131

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لینک ثابت به این مقاله:
https://civilica.com/doc/1548575

شناسه ملی سند علمی:

JR_RERA-4-1_005

تاریخ نمایه سازی: 11 آبان 1401

چکیده مقاله:

Solar energy as renewable and clean energy has a remarkable share in improving the water-energy-food nexus. However, due to occupying a vast area of land, the development of large-scale photovoltaic systems is a serious challenge, particularly in regions with land restrictions. As a solution, it is argued that the installation of the floating photovoltaic systems on the water reservoirs can save land as well as reduce the evaporation rate. The aim of this study is to economically and environmentally evaluate the feasibility of the installation of a ۱۰-megawatt floating photovoltaic power plant on a water reservoir. Results show that the payback period of investment and internal rate of return are achieved at ۵.۲ years and ۲۰.۴%, respectively. It is also found that if only ۰.۳% of the water reservoir surface is covered, evaporation volume will be decreased from ۴۴۱.۲ up to ۵۱۵.۲ thousand cubic meters. Moreover, environmental assessment demonstrates that ۸۴۷۰ to ۱۵۳۱۱ tons of CO۲ and ۲۷ to ۵۲.۳ tons of NOx are not released into the atmosphere. Ultimately, sensitivity analysis proves that if the capital cost is reduced by ۳۰%, the payback period will be shortened to ۳.۶ years. Furthermore, such a project in Chah-nimeh will be profitable as long as the electricity purchasing tariffs are more than US ۰.۰۹۶/kWh.

کلیدواژه ها:

economic assessment ، Environment ، floating photovoltaic ، greenhouse gas ، water evaporation

نویسندگان

M. Mirzaei Omrani

Faculty of Mechanical and Energy Engineering, Shahid Beheshti University, Tehran, Iran.

M. Mirzaei Omrani

Science and Research Branch, Islamic Azad University, Zahedan, Iran.

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  • P. R. Jagadale, A. B. Choudhari, and S. S. Jadhav. ...
  • T. Kjeldstad, D. Lindholm, E. Marstein, and J. Selj. Cooling ...
  • A. P. Sukarso and K. N. Kim. Cooling effect on ...
  • M. Dörenkämper, A. Wahed, A. Kumar, M. de Jong, J. ...
  • Y.-G. Lee, H.-J. Joo, and S.-J. Yoon. Design and installation ...
  • E. M. do Sacramento, P. C. Carvalho, J. C. de ...
  • M. S. M. Azmi, M. Y. H. Othman, M. H. ...
  • N. A. S. Elminshawy, A. Osama, D. G. El-Damhogi, E. ...
  • S. Gadzanku, L. Beshilas, and U. B. Grunwald. Enabling floating ...
  • M. Lak Kamari, H. Isvand, and M. Alhuyi Nazari. Applications ...
  • Where sun meets water: floating solar market report, Washington, DC: ...
  • Y. Wu, L. Li, Z. Song, and X. Lin. Risk ...
  • X. Wang et al., Synthesis, structural characterization and evaluation of ...
  • P. Ranjbaran, H. Yousefi, G. Gharehpetian, and F. R. Astaraei. ...
  • M. Barbuscia. Economic viability assessment of floating photovoltaic energy, ۲۰۱۸ ...
  • A. Siddiqi and L. D. Anadon. The water–energy nexus in ...
  • A. K. Singh, D. Boruah, L. Sehgal, and A. P. ...
  • M. Rosa-Clot, G. M. Tina, and S. Nizetic. Floating photovoltaic ...
  • L. Liu, Q. Sun, H. Li, H. Yin, X. Ren, ...
  • M. Fereshtehpour, R. Javidi Sabbaghian, A. Farrokhi, E. B. Jovein, ...
  • P. Hellegers, W. Immerzeel, and P. Droogers. Economic concepts to ...
  • D. Martínez-Granados, J. F. Maestre-Valero, J. Calatrava, and V. Martínez-Alvarez. ...
  • F. Helfer, C. Lemckert, and H. Zhang. Impacts of climate ...
  • M. A. Benzaghta and T. A. Mohamad. Evaporation from reservoir ...
  • F. Gökbulak and S. Özhan. Water loss through evaporation from ...
  • Theoretical analysis of reservoir-based floating photovoltaic plant for 15-khordad dam in Delijan [مقاله ژورنالی]
  • M. R. Santafé, J. B. T. Soler, F. J. S. ...
  • D. Mittal, B. K. Saxena, and K. Rao. Floating solar ...
  • S.-M. Kim, M. Oh, and H.-D. Park. Analysis and prioritization ...
  • A. Tavana et al. Toward renewable and sustainable energies perspective ...
  • P. S. Mohsen, F. Pourfayaz, R. Shirmohamadi, S. Moosavi, and ...
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  • K. Sudhakar and T. Srivastava. Energy and exergy analysis of ...
  • M. Mirzaei Omrani, R. Shahabi-Nezhad, M. Zandi, and R. Gavagsaz-ghoachani. ...
  • N. Martín-Chivelet. Photovoltaic potential and land-use estimation methodology. Energy, vol. ...
  • K. Madani, A. AghaKouchak, and A. Mirchi. Iran’s socio-economic drought: ...
  • E. Spang, W. Moomaw, K. Gallagher, P. Kirshen, and D. ...
  • U. Caldera, D. Bogdanov, and C. Breyer. Local cost of ...
  • ۲۰۰۰ tomans per ۱litre mineral water, ۲۰۱۸, Available: https://www.isna.ir/news/۹۷۰۵۲۲۱۱۴۹۸ ...
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