%0 Journal Article
%T 岩石与地热井水泥表面湿度对热传导效率的影响
Effect of Interface Humidity on the Thermal Transfer Efficiency between Rock Mass and Geothermal Well Cement
%A 薛梦雅
%A 张格
%A 吴楚天
%A 赵子昂
%J Hans Journal of Civil Engineering
%P 111-116
%@ 2326-3466
%D 2025
%I Hans Publishing
%R 10.12677/hjce.2025.141014
%X 岩石与地热井水泥表面之间的热传导效率对地热能的热传导性能起着至关重要的作用。在施工过程中,表面处始终存在一层水膜,虽然由于其尺度较小而常常被忽视,但它对表面的热传导效率有着显著影响。因此,本文从原子尺度深入探讨了水分对岩石与地热井水泥表面热传导效率的影响。我们讨论了不同厚度水膜影响下的热传导效率,并从表面官能团的角度进一步分析了这种效率。氢键的引入揭示了表面热传导减弱的原因。本研究旨在揭示地热井热传导效率低下的内在原因,并为施工过程中的控制指标提供指导,从而为实现高效的热传导奠定理论基础。
The heat transfer efficiency at the interface between rock masses and geothermal well cement plays a crucial role in determining the heat transfer properties of geothermal energy. During construction, a water film invariably exists at this interface, often overlooked due to its small scale, yet it significantly impacts the interface’s thermal transfer efficiency. Thus, this paper delves into the influence of moisture on the interface between rock masses and geothermal well cement at the atomic scale. We discuss the thermal transfer efficiency under the influence of water films of varying thicknesses and further analyze this efficiency from the perspective of interface functional groups. The introduction of hydrogen bonding sheds light on the reasons behind the weakened interface thermal transfer. This study aims to unveil the underlying reasons for the low thermal transfer efficiency of geothermal wells, and to provide guidance for controlling indicators during the construction process, thereby establishing a theoretical foundation for achieving efficient geothermal conduction.
%K 表面湿度,
%K 岩石,
%K 水泥,
%K 热导率,
%K 分子动力学模拟
Interface Humidity
%K Rock Mass
%K Cement
%K Thermal Conductance
%K Molecular Dynamics Simulation
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=105832