Design of Solar Power Plant for Electrical Engineering Department Laboratory

2019 2nd International Conference on High Voltage Engineering and Power Systems (ICHVEPS) Pub Date : 2019-10-01 DOI:10.1109/ICHVEPS47643.2019.9011041

H. R. Iskandar, Eldy Darmawan, Y. Zainal, Giri Angga Setia, Naftalin Winanti, Fauzia Haz

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引用次数: 7

Abstract

Indonesia's electricity consumption is projected to increase significantly when fossil fuels run out, therefore renewable energy is used as an innovative step to meet these electricity needs. In this paper, will discuss a Photovoltaic (PV) Power Plant design proposed to meet electrical energy needs in Electrical Engineering Laboratory (EEL) of the Faculty of Engineering (FoE), Universitas Jenderal Achmad Yani (Unjani). This design is made by considering the existing laboratory load capacity, the need for solar panel units, configuration, and type of installation, the number of solar panel components, climate data, and the maximum tilt angle of the panel that can be produced for 1 year. The simulation of rooftop PV systems laboratories produce a PV Generator Power (AC grid) 31.220 kWh/year, the required area is 200 m2 with 121 units of 265 Wp solar panels, and 11 units of 2 kW inverter connected on-grid 220V/50 Hz, with a fixed tilt angle 16˚ face to the north. These results are projected to meet electricity consumption needs in the laboratory.

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太阳能电站设计电气工程系实验室

当化石燃料耗尽时，印度尼西亚的电力消耗预计将大幅增加，因此使用可再生能源是满足这些电力需求的创新举措。在本文中，将讨论一种光伏(PV)发电厂的设计，以满足Jenderal Achmad Yani大学(Unjani)工程学院(FoE)电气工程实验室(EEL)的电能需求。本次设计考虑了现有实验室的负荷能力、太阳能电池板单元的需求、配置和安装类型、太阳能电池板组件的数量、气候数据以及电池板可生产1年的最大倾斜角。模拟屋顶光伏系统实验室产生的光伏发电功率(交流并网)为31.220 kWh/年，所需面积为200 m2，安装121台265 Wp太阳能电池板，11台2kw逆变器并网220V/50 Hz，固定倾角16˚面向北。预计这些结果将满足实验室的用电量需求。

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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2019 2nd International Conference on High Voltage Engineering and Power Systems (ICHVEPS)

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