低成本开源太阳能光伏支架的压载支撑地基设计

Designs Pub Date : 2024-02-04 DOI:10.3390/designs8010017
Nicholas Vandewetering, Uzair Jamil, Joshua M. Pearce
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引用次数: 0

摘要

尽管太阳能光伏(PV)系统的成本已经下降,但资本成本仍然是广泛采用的一个障碍。自己动手(DIY)的系统设计可以大大降低劳动力成本,但如果不与建筑结构相连,就需要穿透地面的基座。这在技术和经济上并非在所有地点都可行。为了克服这些挑战,本研究详细介绍了系统设计:(1) 无需钻孔和浇筑混凝土;(2) 为固定和可变倾斜系统提出解决方案;(3) 保持成本效益;(4) 允许进行修改,以最大限度地满足用户需求。通过提出两种不同的压载设计,对八个系统的压载支撑地基进行了分析:一种是单列支柱系统,另一种是双列支柱系统,均以 4 千瓦为基础。分析结果发现,这两种设计都比典型的地埋式混凝土系统略贵 25%(假设岩石是在园艺公司购买的),但 DIY 系统的整体成本仍然具有经济优势。敏感性分析表明,尺寸的修改会影响系统的重量,从而改变设计的经济价值,因此用户可以用尺寸自由度来换取成本节约,反之亦然。总之,所有的木质光伏支架系统设计都为用户提供了替代传统金属支架的高性价比和简便的 DIY 方法,而所介绍的新型压载系统则为光伏系统的安装提供了更多的灵活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ballast-Supported Foundation Designs for Low-Cost Open-Source Solar Photovoltaic Racking
Although solar photovoltaic (PV) system costs have declined, capital cost remains a barrier to widespread adoption. Do-it-yourself (DIY) system designs can significantly reduce labor costs, but if they are not attached to a building structure, they require ground penetrating footings. This is not technically and economically feasible at all sites. To overcome these challenges, this study details systems designed to (1) eliminate drilling holes and pouring concrete, (2) propose solutions for both fixed and variable tilt systems, (3) remain cost effective, and (4) allow for modifications to best fit the user’s needs. The ballast-supported foundations are analyzed for eight systems by proposing two separate ballast designs: one for a single line of post systems, and one for a double line of post systems, both built on a 4-kW basis. The results of the analysis found that both designs are slightly more expensive than typical in-ground concrete systems by 25% (assuming rocks are purchased at a landscaping company), but the overall DIY system’s costs remain economically advantageous. Sensitivity analyses are conducted to show how modifications to the dimensions influence the weight of the system and thus change the economic value of the design, so users can trade dimensional freedom for cost savings, and vice versa. Overall, all wood-based PV racking system designs provide users with cost-effective and easy DIY alternatives to conventional metal racking, and the novel ballast systems presented provide more versatility for PV systems installations.
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