Aquifer thermal energy storage (ATES) has become a relatively well-known energy storage technology in many parts of the world.
地下含水层储能已成为一项在世界上较为知名的储能技术。
In the processes of aquifer thermal energy storage, the variation of temperature in solid matrix will bring about thermal stress and result in the change of effective stress.
含水层储能过程中回灌水的温度与背景温度不同,固体骨架温度变化产生的热应力将导致有效应力的变化。
For PRW, the seasonal thermal energy storage (STES) alleviated the dependency on aquifer for heat source or sink, and made aquifer as a carrier for heat storage.
抽灌同井运行时的季节性储能很大程度地减轻了对含水层作为热源(汇)的依赖,而让其作为一种蓄热的载体。
Aquifer thermal-energy storage (ATES) has become a widely-used practical energy storage technology and can be applied in large-scale air-conditioning projects.
地下含水层储能已成为一项应用日益广泛的实用储能技术,可以很好的应用于大型空调项目。
The aquifer thermal-energy storage technology is of great importance to energy saving and environmental protection and will find wide application in the future.
地下含水层储能技术具有节能和环保的重要意义,因而它具有广阔的应用前景。
The aquifer thermal-energy storage technology is of great importance to energy saving and environmental protection and will find wide application in the future.
地下含水层储能技术具有节能和环保的重要意义,因而它具有广阔的应用前景。
应用推荐