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湖北省自然科学基金(2011CDB292)

作品数:2 被引量:17H指数:2
相关作者:吴丹宋光前徐新华更多>>
相关机构:华中科技大学更多>>
发文基金:湖北省自然科学基金中央高校基本科研业务费专项资金国家自然科学基金更多>>
相关领域:建筑科学更多>>

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复合式地源热泵系统及运行控制模拟分析被引量:10
2013年
提出复合式地源热泵系统的顺序控制法与湿球温度控制法,建立了基于TRNSYS的复合式地源热泵系统及其控制系统模拟平台。以郑州某建筑复合式地源热泵系统为研究对象,并对该系统在不同运行控制下的运行及能耗进行动态模拟。模拟结果表明对于该地源热泵系统,采用湿球温度控制法并选定合适的湿球温度能保持土壤的热平衡性并且减少系统能耗。
宋光前徐新华吴丹
关键词:热平衡
An active pipe-embedded building envelope for utilizing low-grade energy sources被引量:7
2012年
An active pipe-embedded building envelope, which is an external wall or roof with pipes embedded inside, was presented. This structure may utilize the circulating water in the pipe to transfer heat or coolth inside directly. This kind of structure is named "active pipe-embedded building envelope" due to dealing with the thermal energy actively inside the structure mass by circulating water. This structure not only deals with thermal energy before the external disturbance becomes cooling/heating load by using the circulating water, but also may use low-grade energy sources such as evaporative cooling, solar energy, and geothermal energy. In the meantime, this structure can also improve the indoor thermal comfort by tempering the internal wall surface temperature variation due to the thermal removal in the mass. This work further presents the thermal performance of this structure under a typical hot summer weather condition by comparing it with that of the conventional external wall/roof with numerical simulation. The results show that this pipe-embedded structure may reduce the external heat transfer significantly and reduce the internal wall surface temperature for improving thermal comfort. This work also presents the effects of the water temperature and the pipe spacing on the heat transfer of this structure. The internal surface heat transfer may reduce by about 2.6 W/mE when the water temperature reduces by 1℃ as far as a brick wall with pipes embedded inside is concerned. When the pipe spacing reduces by 50 mm, the internal wall surface heat flux can also reduce by about 2.3 W/m2.
谢军龙朱求源徐新华
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