Research on the design of prefabricated curved structure production capacity residential energy system: a case study of an entry of 2022 China International Solar Decathlon Competition- 'Solar Ark 3.0'

Chao Zhou, Hong Zhang, Xini Chai, Hongyu Ye, Shanggang Hei, Junjun Zhang, Shen Luo, Haochen Xu
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Abstract

Under the severe situation of global warming, the problem of high energy consumption and carbon emissions in the construction industry need to be addressed urgently, and the method to promote the development of the construction industry in the direction of low-carbon sustainability has become a problem to be solved. Taking ‘Solar Ark 3.0’, the entry of Southeast University United Team in the Third China International Solar Decathlon Competition (SDC2022), as an example. This study proposes the wind and solar complementary capacity design, multi-mode energy storage design, intelligent energy use design and production, storage and use of multi-energy complementary intelligent energy management methods through the exploration of the integrated design and construction of curved structure housing and energy system. These designs of ‘Solar Ark 3.0’ improve the utilization efficiency of renewable energy in buildings and also provide methods for the integrated design of curved structural housing and energy systems.

装配式曲线结构产能住宅能源系统设计研究——以2022中国国际太阳能十项全能竞赛参赛作品“太阳能方舟3.0”为例
在全球气候变暖的严峻形势下,建筑业高能耗、高碳排放的问题亟待解决,如何推动建筑业朝着低碳可持续的方向发展成为亟待解决的问题。以第三届中国国际太阳能十项全能大赛(SDC2022)东南大学联合代表队参赛作品“太阳能方舟3.0”为例。本研究通过对曲线结构住宅与能源系统一体化设计与建设的探索,提出了风能与太阳能互补容量设计、多模式储能设计、智能能源利用设计与生产、存储与使用多能互补的智能能源管理方法。这些“太阳能方舟3.0”的设计提高了可再生能源在建筑中的利用效率,也为弯曲结构房屋和能源系统的集成设计提供了方法。
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