基于线性菲涅耳反射镜的CPV/T系统的能量和火用比较分析

Q2 Engineering
K. Çalik, C. Firat
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引用次数: 0

摘要

一个非常吸引人的能源发电系统是光伏系统与线性菲涅耳反射器的集成,特别是当与冷却热系统相结合时。本研究对使用传统线性菲涅耳反射镜的CPV/T系统的能量和火用进行了比较分析。计算表明,考虑到当时的天气条件和该地点的平均瞬时太阳辐射为559 W/m2,在考虑的CPV/T系统中,利用高效、持久、经济的单晶太阳能电池,该系统每月平均可产生271.23 千瓦时的电力和613.63 千瓦时的热能。系统的总效率为54.1% %。根据火用分析,该装置的热、电元件都有一定的火用损失。总体的能源效率计算为54.96 %。因此,平均而言,由于热因素,系统每天的火用损失为1.01 kWh,由于电因素,系统每天的火用损失为1.70 kWh。虽然系统在火用方面比能量方面更有效,但火用值强调了减少能量和火用损失以提高整体系统性能的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative energy and exergy analysis of a CPV/T system based on linear Fresnel reflectors
Abstract An energy generation system that is highly appealing is the integration of a photovoltaic system with linear Fresnel reflectors, especially when combined with a cooling thermal system. This research study involves a comparative analysis of energy and exergy of a CPV/T system that uses traditional linear Fresnel reflectors. The calculations indicate that, given the prevailing weather conditions and an average instantaneous solar radiation of 559 W/m2 at the location, the system can generate an average of 271.23 kWh of electricity and 613.63 kWh of thermal energy per month by utilizing highly efficient, long-lasting, and cost-effective monocrystalline solar cells in the considered the CPV/T system. The overall efficiency of the system is determined to be 54.1 %. According to exergy analysis, the setup experiences some loss of exergy in both its thermal and electrical components. The overall exergy efficiency is calculated as 54.96 %. Thus, on average, the system experiences an exergy loss of 1.01 kWh per day due to thermal factors and 1.70 kWh due to electrical factors. Although the system appears to be more efficient in exergy than energy, the exergy values highlight the need to reduce energy and exergy losses in order to improve the overall system performance.
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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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