Advantages and challenges of DC microgrid for commercial building a case study from Xiamen university DC microgrid

2015 IEEE First International Conference on DC Microgrids (ICDCM) Pub Date : 2015-06-07 DOI:10.1109/ICDCM.2015.7152068

Fengyan Zhang, C. Meng, Yun Yang, Chunpeng Sun, Chengcheng Ji, Ying Chen, Wen Wei, Hemei Qiu, Gang Yang

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引用次数: 68

Abstract

This paper discussed the advantages and challenges of DC microgrid for commercial building. The data obtained from the DC microgrid constructed at Xiamen University shows that DC microgrid with rooftop solar system is an efficient way to power varies DC loads inside the building. The capacity of the solar system on the rooftop normally will be enough to power the LED light loads in commercial buildings, even for high rise buildings. In order to power heavy loads such as air conditioning and EV charging stations, extra power are required, which can be obtained from the BIPV on the sidewall, glass window, or adjacent parking lots. To ensure the stable bus voltage and continuous operation of the DC microgrid, a suitable energy storage unit and two way AC/DC invertors are needed. Therefore we believe to use the solar power only for the matched DC loads, and keep existing AC power in the building to power the rest loads (or an AC and DC hybrid microgrid) maybe a more viable solution. The economical analysis shows that installation cost of a DC microgrid system is about $2.2/W, which is becoming a marketable technology.

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商业建筑直流微电网的优势与挑战——以厦门大学直流微电网为例

本文讨论了商业建筑直流微电网的优势和面临的挑战。厦门大学建设的直流微电网数据表明，屋顶太阳能系统的直流微电网是一种有效的方式，为建筑物内变化的直流负荷供电。屋顶太阳能系统的容量通常足以为商业建筑中的LED轻负荷供电，即使是高层建筑。为了给空调和电动汽车充电站等重负荷供电，需要额外的电力，这些电力可以从侧壁、玻璃窗或邻近停车场的BIPV获得。为了保证直流微电网母线电压的稳定和连续运行，需要合适的储能单元和双向交/直流逆变器。因此，我们认为仅为匹配的直流负载使用太阳能，并保留建筑物中现有的交流电源为其余负载供电(或交直流混合微电网)可能是一个更可行的解决方案。经济分析表明，直流微电网系统的安装成本约为2.2美元/瓦，正在成为一种有市场的技术。

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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2015 IEEE First International Conference on DC Microgrids (ICDCM)

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