通过机构大棚屋顶太阳能光伏系统提高绿色电力份额

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Kola Leleedhar Rao
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引用次数: 0

摘要

在一所高等院校中,有六个车间(WS)和一个中央仓库(CS),在这七个仓库的屋顶上安装太阳能光伏(PV)系统具有实时可行性。研究结果表明,在 WS 和 CS 屋顶上,以千瓦时/千瓦时/天为单位的日均归一化发电量(ADNP)在朝南的屋顶更高(4.20),其次是朝西的屋顶(4.06)、朝东的屋顶(3.96)和朝北的屋顶(3.78)。与朝北和朝东的屋顶相比,朝南和朝西的屋顶可产生的平均额外能量(MAAE)分别约为 11.27% 和 2.52%。与垂直安装(VI)相比,在裸露屋顶两侧水平安装(HI)光伏组件时,以千瓦时/千瓦时/年为单位的平均发电量(ASP)在 WS(1459.25)时较高,而在 CS(1454.5)时较低。总共七个棚顶可产生的最大能量约为 969 566 千瓦时/年,每年可减少约 824.12 吨二氧化碳排放。这是一个可观的数字,可以为建立绿色电力铺平道路。本研究的成果解决了高等教育机构面临的能源可持续性挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Green Electricity Share Enhancement Through Rooftop Solar PV System on Institutional Sheds
Different cases have been exercised to create real-time feasibility for erecting solar photovoltaic (PV) system on the roofs of the seven sheds being utilized as six workshops (WSs) and one central store (CS) within a higher educational institution. The obtained results are so intensive that for the WS and CS sheds, the average daily normalized production (ADNP) in kWh/kWp/Day is more on the south-facing roofs (4.20) followed by west- (4.06), east- (3.96), and north-facing roofs (3.78). The mean average additional energy (MAAE) of about 11.27% and 2.52% can be generated on south- and west-facing roofs compared to the north- and east-facing roofs, respectively. In comparison to the vertical installation (VI), the average specific production (ASP) in kWh/kWp/Annum is more with the horizontal installation (HI) of PV modules on either side of the exposed roofs for WS (1459.25) and less for CS (1454.5). The total maximum energy that can be generated on the roofs of total seven sheds is about 969 566 kWh/Annum, which may reduce about 824.12 ton of CO2 emissions per annum. It is an appreciable figure and could pave a path for establishing green electricity. The outcomes of the presented study address the energy sustainability challenges of a higher educational institution.
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CiteScore
3.70
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