最大自用光伏电池储能的技术经济评价

Q2 Engineering
Q. Hassan, Majid K. Abbas, V. S. Tabar, S. Tohidi, A. Z. Sameen, H. M. Salman
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引用次数: 1

摘要

摘要:该研究提供了一种技术经济优化技术,用于获得理想的电池存储容量,并结合能够满足高水平自给自足的期望住宅负荷的太阳能阵列。此外,还对所提出的光伏电池系统的可行性进行了评估。以一分钟的分辨率,测量了2021年的年能耗、辐照度和环境温度。从2021年到2030年进行了固定经济模型的模拟。基于年能耗3755.8 kWh的实验评估,研究得出2.7 kWp容量光伏阵列的年发电量为4295.5 kWh。确定的最佳电池容量为14.5 kWh,以0.25美元/kWh的能源成本,可满足90.2%的自用电量。此外,还建立了自我消费与净现值成本和能源成本之间的两个三阶多项式关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Techno-economic assessment of battery storage with photovoltaics for maximum self-consumption
Abstract The study provided a techno-economic optimization technique for acquiring the ideal battery storage capacity in conjunction with a solar array capable of meeting the desired residential load with high levels of self-sufficiency. Moreover, the viability of a proposed photovoltaic battery system was evaluated. With a resolution of one minute, the annual energy consumption, irradiance, and ambient temperature for 2021 have been measured. Simulations of a stationary economic model are run from 2021 to 2030. Based on the experimental evaluation of the annual energy consumption, which was 3755.8 kWh, the study reveals that the photovoltaic array with a capacity of 2.7 kWp is capable of producing an annual energy production of 4295.5 kWh. The optimal battery capacity determined was 14.5 kWh, which can satisfy 90.2% of self-consumption at the cost of energy $0.25/kWh. Additionally, two third-order polynomial relationships between self-consumption and net present costs and energy cost were established.
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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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