基于人工温度场的土体渗流速度监测理论模型与试验验证OA
Theoretical model and its experimental validation of soil seepage velocity monitoring based on artificial thermal field
土石坝工程中,利用温度实施渗流安全监测的可行性已得到验证.然而,如何基于温度场来定量评估土中流速仍是一个有待解决的问题.鉴于此,本文构建了考虑热-流耦合作用的人工温度场渗流分析模型,采用有限元方法研究不同渗流速度下的降温规律,并结合室内试验进行验证.结果表明:(1)当渗流速度低于1×10-4 cm/s时,传热过程以热传导方式为主,热对流的影响可忽略;此时,进一步降低渗流速度,对传热过程几无影响.(2)初始温度的选取并不影响其降温规律,后者仅与周围土体中的渗流速度相关.因此,实际工程中应用人工温度场技术开展流速分析时,可不必严格控制其初始温度.(3)降温系数λ与渗流速度v之间具备单调性,所提指数衰减函数的拟合曲线与孔内水温下降过程吻合良好,可根据人工温度场的降温曲线准确预测土中渗流状态.本研究验证了通过人工温度场确定土中流速的技术可行性,可为土中流速测量提供理论支撑.
In earth-rock dam engineering,the feasibility of using temperature for seepage safety monitoring has been verified.However,quantitatively assessing the flow velocity in soil based on the temperature field remains an unre-solved issue.In this regard,this paper constructs an artificial thermal field seepage analysis model that considers the thermal-seepage flow coupling effect,using the finite element method to study the cooling patterns of monitoring wells under different seepage velocities,and validates the findings through laboratory experiments.The results indi-cate that:(1)When the seepage velocity is lower than 1×10-4 cm/s,the heat transfer process is primarily governed by heat conduction,with the influence of heat convection being negligible;further reducing the seepage velocity has little effect on the heat transfer process.(2)The selection of the initial temperature does not affect the cooling pat-tern,which is solely related to the seepage velocity in the surrounding soil.Therefore,when applying the artificial temperature field technique for flow velocity analysis in practical engineering,it is unnecessary to strictly control the initial temperature.(3)There is a monotonic relationship between the cooling constant λ and the seepage velocity v,and the proposed exponential decay function fits well with the water temperature decline process inside the monitoring well,enabling accurate prediction of the seepage state in soil based on the cooling curve of the artificial temperature field.In summary,this study validates the feasibility of determining flow velocity in soil using an artificial thermal field and provides theoretical support for flow velocity measurement.
喻葭临;宫浩;程正飞;吴永康;周剑夫;于玉贞
中国水利水电建设工程咨询有限公司,北京 100120||水电水利规划设计总院,北京 100120北京交通大学 土木建筑工程学院,北京 100044中国水利水电建设工程咨询有限公司,北京 100120||水电水利规划设计总院,北京 100120北京交通大学 土木建筑工程学院,北京 100044||清华四川能源互联网研究院,四川 成都 610213三峡大学 水利与环境学院,湖北 宜昌 443002清华大学 水利水电工程系,北京 100084
建筑与水利
人工温度场渗流监测热-流耦合数值模拟降温过程渗流速度
artificial thermal fieldseepage monitoringthermal-flow couplingnumerical simulationcooling pro-cessseepage velocity
《水利学报》 2026 (2)
245-254,10
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