天然非饱和黄土的保水性和导热性

IF 1.5 4区工程技术 Q3 ENGINEERING, GEOLOGICAL Geotechnique Letters Pub Date : 2017-11-15 DOI:10.1680/JGELE.17.00037

V. Nguyen, H. Heindl, Jean-Michel Pereira, A. Tang, J. Frost

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引用次数: 10

摘要

黄土覆盖了地球表面的大部分。黄土沉积物通常由粉砂、粘土和细砂颗粒组成，厚度可达几米。根据颗粒组成、土壤质地和含水量的不同，黄土的热导率在0.07 ~ 2w /(m.K)的较大范围内变化。在这项研究中，在法国北部的浅层(1 m)取样完整的黄土。在对样品进行湿润/干燥循环的过程中，同时测量了土壤的吸力、体积含水量和导热系数。结果表明，土壤体积含水率对土壤导热系数有显著影响。与水保持曲线的情况一样，在绘制热导率与吸力的关系时，可以观察到一个迟滞回线。然而，当热导率作为饱和度的函数绘制时，没有出现迟滞。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water retention and thermal conductivity of a natural unsaturated loess

Loess covers large portions of Earth's surface. Loess deposits are typically composed of silt with clay and fine sand particles and usually reach a few meters in thickness. Thermal conductivity of loess varies over a relatively large range from 0·07 to 2 W/(m.K), depending on the particle composition, soil texture and also moisture content. In this study, intact loess was sampled at shallow depth (1 m) in Northern France. Suction, volumetric moisture content and thermal conductivity of soil were measured simultaneously during the application of wetting/drying cycles to the sample. The results show that the volumetric moisture content significantly influences the soil thermal conductivity. As is the case for the water-retention curve, a hysteresis loop can be observed when plotting the thermal conductivity against suction. However, no hysteresis appears when the thermal conductivity is plotted as a function of the degree of saturation.

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来源期刊

Geotechnique Letters ENGINEERING, GEOLOGICAL-

CiteScore

4.20

自引率

0.00%

发文量

期刊介绍： Géotechnique Letters provides a vehicle for the rapid international dissemination of the latest and most innovative geotechnical research and practice. As an online journal, it is aimed at publishing short papers, intending to foster the quick exchange of the latest advances and most current ideas without the delays imposed by printed journals, whilst still maintaining rigorous peer reviewing standards.

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