Marcel Bonifacio Tirta Wijata, Anak Agung Adhi Suryawan, Ketut Astawa, I Gusti Ketut Sukadana, I Made Parwata
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引用次数: 0
Abstract
PLTS has enormous potential in Indonesia, especially in Java-Bali, which accounts for 70% of Indonesia's electricity needs. In this study, a simulation of the PLTS system design was carried out using a hybrid microgrid as a power supply using PVsyst software to simulate PLTS performance. Power load requirements are adjusted to the specifications of electric vehicles. Meteonorm meteorological data were compared with field data to adjust for data variability. In the design simulation, there are three different slope angle scenarios, namely 10º, 13º, and 15º. The effective surface area for installing PLTS on an unmeasured roof is 35 m x 14 m (490 m2), so the number of modules that can be installed will be adjusted to the roof area. The PLTS system is capable of producing 169.3 MWh of power per year with an optimal tilt angle of 13º which has specific production of 1726 kWh/kWp/year and a performance ratio of 78.63%. PLTS is able to supply the power needs of 103 units of electric vehicles every day.
PLTS在印度尼西亚具有巨大的潜力,特别是在爪哇-巴厘岛,该地区占印度尼西亚电力需求的70%。在本研究中,采用混合微电网作为电源,使用PVsyst软件模拟PLTS系统性能,对PLTS系统设计进行了仿真。电力负荷要求根据电动汽车的规格进行调整。将气象数据与野外数据进行比较,以调整数据的变异性。在设计仿真中,有10º、13º和15º三种不同的坡角场景。在未测量的屋顶上安装PLTS的有效表面积为35 m x 14 m (490 m2),因此可以安装的模块数量将根据屋顶面积进行调整。PLTS系统的年发电量为169.3兆瓦时,最佳倾角为13º,具体发电量为1726千瓦时/千瓦时/年,性能比为78.63%。PLTS每天可以满足103辆电动汽车的电力需求。
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