Design Analysis of 7.5KW Stand Alone Solar Photovoltaic Power System for an Intermediate Household

Asian Journal of Research and Reviews in Physics Pub Date : 2021-09-22 DOI:10.9734/ajr2p/2021/v5i130154

Rilwanu Bello, Taufiq Suleiman, Usman Atiku Kende, Mohammed Abulrasheed

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引用次数: 1

Abstract

Aim: Design Analysis of 7.5KW Stand-alone Solar Photovoltaic Power System for an Intermediate Household. Methodology: A design analysis of standalone 7.5KW PV system was carried out using PV modeling equations based on load estimated. The analyzed data of the solar photovoltaic components was used to determine the estimated output power of 7.5KW. Therefore, a number of modeling equations and methodologies for designing a PV system based on application have been developed and simplified in order to ensure the optimum performance of the system. The analyzed solar powered 7.5KW system was achieved by designing 24 solar panels of 335W each, 16 deep cycle battery of 200A each, and a pulse width modulation (PWM) charge controller of 60A to monitor the output of the battery for safety operation. The battery will be connected to the inverter circuit (DC-AC) to generate 220V alternating current in its output via a step-up transformer. In this paper, design analysis of a standalone PV system enables of producing power to a household with approximate consumption of 7.5KW was conducted. Results: The standalone PV system along with the cost implications was analysed and designed. In this analysis a sequential design plan of an independent standalone solar powered photovoltaic structure was analysed and overviewed to supply continuous and uninterrupted power to a typical utility with maximum power consumption of 7500W (7.5KVA). The calculated/computed values of all the components yield a result that can serve the purpose. Based on the design analysis, the result implies that the estimate consumption of 7.5KW in a day requires 24 PV panels of 335 Watts each, 16 (12V, 200Ah) batteries, 10KW inverter, (12V, 60A) charge controller and copper wire of cross-sectional area (1.688mm2) for installation. Conclusion: In Nigeria, to generate a solar power of 7.5KVA requires almost $15,585.70 which is equivalent to N 5,965,426.66.

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某中等户用7.5KW独立太阳能光伏发电系统设计分析

目的:某中等家庭7.5KW独立太阳能光伏发电系统设计分析。方法:采用基于负荷估算的光伏建模方程，对单机型7.5KW光伏系统进行设计分析。利用太阳能光伏组件的分析数据，确定估算输出功率为7.5KW。因此，开发和简化了一些基于应用的光伏系统设计建模方程和方法，以确保系统的最佳性能。设计了24块335W的太阳能电池板，16块200A的深循环电池，以及60A的脉宽调制(PWM)充电控制器来监控电池的输出以保证电池的安全运行，从而实现了所分析的7.5KW太阳能供电系统。电池将连接到逆变电路(DC-AC)，通过升压变压器在其输出中产生220V交流电。本文对一个独立的光伏发电系统进行了设计分析，该系统可以为一个家庭提供大约7.5KW的电力。结果:分析和设计了独立光伏系统及其成本影响。在这个分析中，分析和概述了一个独立的独立太阳能光伏结构的顺序设计方案，为一个最大功耗为7500W (7.5KVA)的典型公用事业提供连续和不间断的电力。所有组件的计算值产生一个可以服务于目的的结果。根据设计分析结果可知，预计一天7.5KW的用电量需要24块335瓦的光伏板，16节(12V, 200Ah)电池，10KW逆变器，(12V, 60A)充电控制器，安装截面积为1.688mm2的铜线。结论:在尼日利亚，产生7.5KVA的太阳能发电需要近15,585.70美元，相当于5,965,426.66奈拉。

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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Asian Journal of Research and Reviews in Physics

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