SOLAR POWER PLANT PLANNING FOR HOUSEHOLD SCALE BY THE AID PVSYST PROGRAM

Beny Layarda
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Abstract

Geographically, Indonesia is located on the equator, so it is very rich in solar energy sources with an average solar radiation intensity of around 4.8 kWh/m2 per day throughout Indonesia. The main component contained in solar power plants is solar cells which function to convert sunlight into electrical energy This research discusses the Planning of Solar Power Plants for Household Scale Assisted by the PVsyst Program. The purpose of this research is to determine how many solar modules, batteries, solar charger controllers, and inverters are needed for planning solar power plants in households with 900 VA and 1300 VA power. Based on manual calculations and simulations of the PVsyst program, 10 Luxor Ecoline Half Cell 280 Wp polycrystalline modules, 12 Narada EosG 2000 Ah batteries, 1 Victron Energy Mppt 250/100 solar charge controller, and 1 Victron Multiplus Compact 24/1200/25 inverter. The capacity of the solar power plant components for 900 VA and 1300 VA household loads is approximately the same, this is because the average daily energy usage is only slightly different. In 900 VA households, the number of occupants of 6 people uses 7088 Wh/day of energy, while in 1300 VA households with 4 occupants uses 7274.5 Wh/day of energy.
援助 PVsyst 计划的家庭规模太阳能电站规划
从地理位置上看,印尼位于赤道上,因此太阳能资源非常丰富,印尼全国平均每天的太阳辐射强度约为 4.8 kWh/m2。太阳能发电厂的主要部件是太阳能电池,其功能是将太阳光转化为电能。本研究讨论的是 PVsyst 计划协助下的家庭规模太阳能发电厂规划。本研究的目的是确定在规划 900 VA 和 1300 VA 功率的家庭太阳能发电站时需要多少太阳能模块、蓄电池、太阳能充电器控制器和逆变器。根据人工计算和 PVsyst 程序模拟,需要 10 个 Luxor Ecoline Half Cell 280 Wp 多晶组件、12 个 Narada EosG 2000 Ah 电池、1 个 Victron Energy Mppt 250/100 太阳能充电控制器和 1 个 Victron Multiplus Compact 24/1200/25 逆变器。900 VA 和 1300 VA 家庭负载的太阳能发电站组件容量大致相同,这是因为日均用电量仅略有不同。在 900 伏安的家庭中,6 人家庭每天使用 7088 瓦时的能源,而在 1300 伏安的家庭中,4 人家庭每天使用 7274.5 瓦时的能源。
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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