A new cooling method for photovoltaic panels using brine from reverse osmosis units to increase efficiency and improve productivity

Talebnejad Rezvan; Kamfiroozi Shahdad; Ebadi HosseinVahabi Seyed HosseinSepaskhah Ali RezaGhobadian BaratSavoldi Laura

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A new cooling method for photovoltaic panels using brine from reverse osmosis units to increase efficiency and improve productivity

机译：A new cooling method for photovoltaic panels using brine from reverse osmosis units to increase efficiency and improve productivity

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According to the rise in the use of PV-powered reverse osmotic (RO) systems due to the current global water crisis, brine management has become a serious issue for scientists. To deal with such difficulty, this study proposes a method in which the rejected brine is used to improve the efficiency of the PV panels by cooling the PV panels and also increase the productivity of the conventional RO systems by preheating the feedwater. Thus, an experimental investigation has been performed on a stand-alone PV-powered RO system to assess the electrical and thermal performance of the solar system and to study in parallel the influence of the thermal treatment on the feeding saline water. Conducting a series of tests under five feeding temperature levels (20, 25, 30, 35, 40 degrees C), with three feedwater salinity levels (1500, 3000 and 4500 mg L-1) at the outdoor conditions, the cooling performance of the brine with various operating parameters was achieved in terms of the growth in PV electrical efficiency. The experimental results demonstrated that when the temperature of the feedwater increases, the salt rejection decreases which leads to a higher recovery factor. Moreover, for the PV cooling purpose, when the brine with temperature below or equal to the ambient temperature is used as the coolant, the temperature reduction on the PV modules is more significant. The maximum improvement in electrical efficiency was found as 3.3% on the PV panels, which shows a 20% increase compared to without cooling conditions. The economic approach also revealed that, if the conventional water used for PV cooling is replaced with the brine rejected from RO systems, the payback period will decrease by 2-4 years depending on the working parameters.

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来源
《Energy conversion & management》 |2022年第1期|115031.1-115031.12|共12页
作者
Talebnejad Rezvan; Kamfiroozi Shahdad; Ebadi HosseinVahabi Seyed HosseinSepaskhah Ali RezaGhobadian BaratSavoldi Laura;
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作者单位

Shiraz Univ, Water Engn Dept, Shiraz, Iran|Shiraz Univ, Drought Res Ctr, Fac Agr, Shiraz, Iran;

Tarbiat Modares Univ TMU, Biosyst Engn Dept, Fac Agr, Tehran, Iran;

Politecn Torino, MAHTEP Grp, Dipartimento Energia Galileo Ferraris DENERG, Turin, ItalyUniv Tehran, Fac Agr Engn & Technol, Dept Agr Machinery Engn, Karaj, Iran;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类
关键词
Brine management; PV; RO; Desalination; Cooling;

A new cooling method for photovoltaic panels using brine from reverse osmosis units to increase efficiency and improve productivity

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