为印度尼西亚偏远地区的住宅负载优化太阳能发电

Agung Nugraha, Rico Armadan, Taryo
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引用次数: 0

摘要

在各行各业技术快速进步和人口不断增长的推动下,印尼的能源需求日益增长,因此有必要探索替代能源。对传统蒸汽发电厂的依赖导致温室气体排放量上升,运营成本增加,因此需要更清洁、更可持续的能源解决方案。太阳能是应对这些挑战的一种前景广阔的替代能源。本研究的重点是开发能够满足偏远地区电力需求的太阳能发电系统。利用 PVsyst 应用程序,设计了一个新的可再生能源系统,以满足居民家庭的用电需求。研究结果表明,该系统使用 8 块太阳能电池板,每块电池板的发电能力为 330 瓦,可产生 13,683 瓦的电能。此外,该系统还包括 15 个容量为 250 Ah 的蓄电池,用于储存能量。所设计的系统成功地满足了住宅每天 8210 瓦的用电需求。为了最大限度地吸收太阳能,太阳能电池板的最佳倾斜角度被确定为 7 度。这项研究表明,太阳能发电系统是满足偏远地区电力需求的一个可行而有效的替代方案,为减少温室气体排放和对传统能源的依赖提供了一个可持续的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimizing Solar Power Generation for Residential Loads in Remote Regions of Indonesia
The increasing energy demand in Indonesia, driven by rapid technological advancements across various industries and a growing population, necessitates the exploration of alternative energy sources. The reliance on traditional Steam Power Plants has contributed to rising greenhouse gas emissions and increasing operational costs, prompting the need for cleaner and more sustainable energy solutions. Solar energy emerges as a promising alternative to address these challenges. This study focuses on developing a solar power generation system capable of meeting the electrical energy needs in isolated areas. Using the PVsyst application, a new renewable energy system was designed to cater to the electricity requirements of residential homes. The study findings indicate that the system can generate 13,683 watts of electrical energy using eight solar panels, each with a capacity of 330 Wp. Additionally, the system includes 15 batteries with a capacity of 250 Ah to store energy. The designed system successfully meets the daily electricity demand of 8,210 watts for residential homes. To maximize solar energy absorption, the optimal tilt angle for the solar panels was determined to be 7 degrees. This study demonstrates that solar power generation systems are a viable and effective alternative for fulfilling electrical energy needs in isolated areas, offering a sustainable solution to reduce greenhouse gas emissions and reliance on conventional power sources.
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