Rancang Bangun Stasiun Pengisian Daya Listrik Berbasis Panel Surya dengan Variasi Profil Pada Penopang Panel Surya

Integrated Mechanical Engineering Journal Pub Date : 2023-12-01 DOI:10.56904/imejour.v1i1.73

A. Saputra, Ade Sunardi, Mohamad Zaenudin

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Abstract

Solar panel-based electric charging stations are a combination of electricity sources and solar panels, allowing efficient and effective charging and helping to source electricity from natural energy in the form of renewable energy, namely the sun. The use of solar panels as the main energy source can reduce dependence on limited energy sources and produce lower greenhouse gas emissions and reduce dependence on fossil energy sources. The purpose of this thesis is to design and analyze the strength and durability of solar panel-based electric charging stations on their supports. The method used in this study is quantitative data taken using Ansys software simulations. The results showed that Design 1 on the solar panel supports had a maximum deformation of 0.2397 mm at an angle of 70 and design 2 produced a maximum deformation of 0.0052439 mm at an angle of 70 to the right/left. Based on these results, it can be concluded that the design of 1 solar panel support is better in terms of strength and durability because the load on the solar panel that is on the support only has an effect of 0.2397 mm which can withstand a load of around 320 N.

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基于太阳能电池板的充电站设计与太阳能电池板支架的外形变化

以太阳能电池板为基础的充电站是电力资源和太阳能电池板的结合，可以实现高效率、高效益的充电，并有助于从可再生能源（即太阳）形式的自然能源中获取电力。使用太阳能电池板作为主要能源，可以减少对有限能源的依赖，降低温室气体排放，减少对化石能源的依赖。本论文的目的是设计和分析基于太阳能电池板的充电站在其支架上的强度和耐用性。本研究采用的方法是使用 Ansys 软件模拟获取定量数据。结果表明，太阳能电池板支架上的设计 1 在角度为 70 时的最大变形量为 0.2397 毫米，而设计 2 在角度为 70 左右时的最大变形量为 0.0052439 毫米。根据这些结果，可以得出结论：设计 1 的太阳能电池板支架在强度和耐用性方面更胜一筹，因为支架上的太阳能电池板所承受的负荷仅为 0.2397 毫米，可承受约 320 牛顿的负荷。

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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Integrated Mechanical Engineering Journal

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