Effects of homogeneous/heterogeneous water distribution on GPR wave velocity in a soil's wetting and drying process

2016 16th International Conference on Ground Penetrating Radar (GPR) Pub Date : 2016-06-01 DOI:10.1109/ICGPR.2016.7572693

J. Sham, W. Lai, C. Leung

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引用次数: 2

Abstract

This paper studies the effects of relatively homogeneous (RHWD) and relatively inhomogeneous water distributions (RIWD) in soil compared by varying the water content through a wetting and drying cycle in a tank (1.85m long × 1.55m wide × 1m deep) filled with 750mm thick plant soil. During the cycle, a 900MHz antenna was regularly used to capture GPR radargrams on a buried steel pipe. Hyperbolic reflections of a buried pipe at a fixed position were extracted to measure wave velocities/dielectric constants at different RHWD and RIWD in the wetting and drying cycle. A vertical coaxial-based water content sensor was also installed in a vertical standpipe in the middle of the tank to obtain the vertical water content profile, synchronized with and correlated to the GPR wave velocity/dielectric constant of the soil. The result of cross plotting between the dielectric constant and soil water content shows that the volumetric fraction of water in a porous medium is the sole important factor affecting dielectric properties of soil.

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均匀/非均匀水分分布对土壤干湿过程中探地雷达波速的影响

本文在填充750mm厚植物土的槽(长1.85m ×宽1.55m ×深1m)中，通过不同的干湿循环，比较了土壤相对均匀(RHWD)和相对不均匀水分分布(RIWD)对土壤的影响。在这个周期中，一个900MHz的天线经常被用来捕捉埋地钢管上的探地雷达雷达图。提取固定位置埋管的双曲反射，测量干湿循环中不同RHWD和RIWD下的波速/介电常数。在水槽中央的垂直立管中安装垂直同轴式含水量传感器，获取垂直含水量剖面，与土壤的探地雷达波速/介电常数同步并相关。介质介电常数与土壤含水量的交叉图结果表明，孔隙介质中水的体积分数是影响土壤介电特性的唯一重要因素。

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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2016 16th International Conference on Ground Penetrating Radar (GPR)

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