Grid Connected Rooftop PV Plant Economic Analysis Using Present Time Frame Methodology

2023 International Conference in Advances in Power, Signal, and Information Technology (APSIT) Pub Date : 2023-06-09 DOI:10.1109/APSIT58554.2023.10201656

Ashutosh Kumar Singh, S. K. Rajput, Amaresh Gantayet

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Abstract

The rooftop PV installation is one of the most significant solutions for producing electrical energy without creating any pollution. PV plants need a significant initial investment, and they also provide energy assistance to grid and users. There is an urgent need to create a straightforward and error-free economic analysis methodology to attract consumers from commercial buildings (such as institutional buildings). The presented study covers a time-value of money based economic analysis for a 100 kWp PV plant at a composite climate in Gwalior, India. The study is performed through real-time data collection and analysis. The results show that there is 127020 kWh electricity generation in the first year, which declined to 104828.34 kWh in the last year (of PV plant life) due to the degradation of the PV array. By considering the uniform cash flow and discount rate of 8.6%, the average annual benefit is Rs. 904374.88. The simple and discounted paybacks of the case study are 7 and 12 years, respectively, whereas the net present value and benefit-to-cost ratio of the plant are Rs. 4679070 and 2.04, respectively.

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使用当前时间框架方法的并网屋顶光伏电站经济分析

屋顶光伏装置是在不产生任何污染的情况下产生电能的最重要的解决方案之一。光伏电站需要大量的初始投资，它们还为电网和用户提供能源援助。迫切需要创建一种直接且无错误的经济分析方法，以吸引来自商业建筑(如机构建筑)的消费者。本研究涵盖了印度瓜廖尔复合气候条件下100千瓦时光伏电站的时间价值经济分析。本研究通过实时数据收集和分析进行。结果表明，第一年的发电量为127020 kWh，由于光伏阵列的退化，在最后一年(光伏电站寿命)发电量下降到104828.34 kWh。考虑统一现金流和8.6%的折现率，平均年收益为904374.88卢比。本案例研究的简单和贴现回报分别为7年和12年，而该工厂的净现值和效益成本比分别为4679070卢比和2.04卢比。

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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2023 International Conference in Advances in Power, Signal, and Information Technology (APSIT)

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