Design and Performance evaluation of Proposed 2 kW Solar PV Rooftop on Grid System in Odisha using PVsyst

2020 IEEE International Students' Conference on Electrical,Electronics and Computer Science (SCEECS) Pub Date : 2020-02-01 DOI:10.1109/SCEECS48394.2020.124

Kamalesh Chandra Rout, P. Kulkarni

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引用次数: 21

Abstract

Main factors driving towards renewable energy are the environmental effects and load demand of electricity. For residential as well as commercial applications, the primary purpose is to determine the methods driven by mathematical models for a grid-tied solar PV system. In Odisha state the average value of solar irradiation is around 1156.39 W/sq. m. So the solar rooftop plant of 1 kWp will generate on yearly basis an average value of 4.8 kWh of electricity per day (taking into account 5.5 sunshine hours). For the generation of 1 kWp, carbon dioxide discharges mitigated is 28 tonnes. So the installation is comparable of planting 45 trees over the life time. In this paper by using PVsyst V6.84 software a case study of 2 kW installation of solar PV plant on rooftop is analyzed for residential load utilization of 8.9 kWh/day. The simulation result gives available AC energy, used energy and excess energy. The generated excess energy is given to the utility grid. Therefore, development of this kind of system provides the green energy for storage and also worthwhile development of the society.

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奥里萨邦2kw太阳能光伏屋顶并网系统的设计与性能评价

推动可再生能源发展的主要因素是环境影响和电力负荷需求。对于住宅和商业应用，主要目的是确定并网太阳能光伏系统的数学模型驱动方法。在奥里萨邦，太阳辐照的平均值约为1156.39 W/sq。m.因此，1 kWp的屋顶太阳能电站每年平均每天发电4.8 kWh(考虑到5.5日照小时)。发电1千瓦时，二氧化碳排放量减少28吨。所以这个装置相当于在一生中种了45棵树。本文利用PVsyst V6.84软件，以2kw屋顶太阳能光伏电站为例，对住宅8.9 kWh/d的负荷利用率进行了分析。仿真结果给出了可用交流能量、已用能量和多余能量。产生的多余能量被提供给公用电网。因此，这种系统的开发为存储提供了绿色能源，也是值得社会发展的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE International Students' Conference on Electrical,Electronics and Computer Science (SCEECS)

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