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A platform for research: civil engineering, architecture and urbanism
Glass water curtain wall and phase change energy storage wall coupling energy saving system and method
The invention discloses a glass water curtain wall and phase change energy storage wall coupling energy saving system and method, and belongs to the field of building energy saving. The glass water curtain wall and phase change energy storage wall coupling energy saving system comprises a glass water curtain wall and a phase change energy storage wall which are connected through a circulating water pipeline; and the system also comprises a control unit used for controlling the circulating water pipeline. A first cavity of the glass water curtain wall is full of an ethylene glycol aqueous solution, a second cavity of the glass water curtain wall is filled with inert gas, a special structure of water layer heat collection and gas layer heat insulation is adopted, and integration of heat absorption and heat insulation is achieved. A phase change energy storage layer comprises three phase-change materials, the phase-change temperatures of the three phase-change materials are 15 DEG C, 26 DEG C and 30 DEG C respectively, and the phase-change materials in multiple temperature sections can meet the requirements for temperature adjustment in daytime and nighttime in different seasons. The problem of high energy consumption of a traditional glass curtain wall and a traditional building wall is solved, meanwhile, all-season all-weather reasonable distribution and utilization of solar energy are achieved, and the energy consumption of an air conditioner and a heating system is greatly reduced.
本发明公开一种玻璃水幕墙与相变储能墙体耦合节能系统及方法,属于建筑节能领域。包括玻璃水幕墙、相变储能墙体,玻璃水幕墙与相变储能墙体之间通过循环水管道连接;还包括用于控制循环水管道的控制单元。玻璃水幕墙第一腔体内部充满乙二醇水溶液,二腔体内部填充惰性气体,采用了水层集热+气层隔热特殊结构,实现了吸热与隔热的一体化。相变储能层包括3种相变材料,3种相变材料的相变温度分别为15℃、26℃以及30℃,多个温度段相变材料能满足不同季节白天、夜间的温度调节需求。本发明在解决传统玻璃幕墙以及传统建筑墙体高能耗问题的同时,又实现了对太阳能全季节全天候的合理分配与利用,大大降低了空调与采暖系统的能耗。
Glass water curtain wall and phase change energy storage wall coupling energy saving system and method
The invention discloses a glass water curtain wall and phase change energy storage wall coupling energy saving system and method, and belongs to the field of building energy saving. The glass water curtain wall and phase change energy storage wall coupling energy saving system comprises a glass water curtain wall and a phase change energy storage wall which are connected through a circulating water pipeline; and the system also comprises a control unit used for controlling the circulating water pipeline. A first cavity of the glass water curtain wall is full of an ethylene glycol aqueous solution, a second cavity of the glass water curtain wall is filled with inert gas, a special structure of water layer heat collection and gas layer heat insulation is adopted, and integration of heat absorption and heat insulation is achieved. A phase change energy storage layer comprises three phase-change materials, the phase-change temperatures of the three phase-change materials are 15 DEG C, 26 DEG C and 30 DEG C respectively, and the phase-change materials in multiple temperature sections can meet the requirements for temperature adjustment in daytime and nighttime in different seasons. The problem of high energy consumption of a traditional glass curtain wall and a traditional building wall is solved, meanwhile, all-season all-weather reasonable distribution and utilization of solar energy are achieved, and the energy consumption of an air conditioner and a heating system is greatly reduced.
本发明公开一种玻璃水幕墙与相变储能墙体耦合节能系统及方法,属于建筑节能领域。包括玻璃水幕墙、相变储能墙体,玻璃水幕墙与相变储能墙体之间通过循环水管道连接;还包括用于控制循环水管道的控制单元。玻璃水幕墙第一腔体内部充满乙二醇水溶液,二腔体内部填充惰性气体,采用了水层集热+气层隔热特殊结构,实现了吸热与隔热的一体化。相变储能层包括3种相变材料,3种相变材料的相变温度分别为15℃、26℃以及30℃,多个温度段相变材料能满足不同季节白天、夜间的温度调节需求。本发明在解决传统玻璃幕墙以及传统建筑墙体高能耗问题的同时,又实现了对太阳能全季节全天候的合理分配与利用,大大降低了空调与采暖系统的能耗。
Glass water curtain wall and phase change energy storage wall coupling energy saving system and method
玻璃水幕墙与相变储能墙体耦合节能系统及方法
TIAN GUOHUA (author) / LIU PENG (author) / MIAO ZHENGKUN (author) / WEN WEIDONG (author) / ZHANG LIJUAN (author) / JI XIANG (author)
2021-07-02
Patent
Electronic Resource
Chinese
Glass curtain wall structure and green energy-saving glass curtain wall system
| European Patent Office | 2024