D. Marchese, G. Bello, M. Greco, V. Lapenna, E. Rizzo, V. Telesca
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引用次数: 0
摘要
在这项工作中,我们提出了一个控制实验的第一个结果,该实验是为了评估SP技术在渗透区检测水通量的能力而进行的。本研究的目的是利用自电位层析成像技术,对土壤地下水分运动进行4D (3D +时间)高分辨率成像,以提高对渗透带水通量的检测。在田间和室内条件下进行了多次水入渗试验。在这种情况下,特别地,实验是通过一个沙盒(7.0 x 3.5 x 2.0米)进行的,可以重现一个中大型的自然环境。通过将32个不可极化电极阵列连接到多路高阻抗和分辨率万用表,连续记录SP信号。在实验室的实验中,大多数所谓的文化噪音被减少到可以忽略不计的程度,结果更好。结果表明,在本文讨论的边界条件下,SP层析成像是监测气包带水通量变化的良好工具。
Self Potential Tomographic Technique to Detect Soil Water Movements in the Vadose Zone: Laboratory Measurements.
In this work we present the first results of a controlled experiment carried out for evaluating the capability of SP technique for water fluxes detection in the vadose zone. The aim of the research is to improve the detection of water fluxes in the vadose zone by using a self-potential tomographic technique which gives a 4D (3D + time) high resolution image of water movements within the soil subsurface. Several water infiltration experiments were performed in both field and lab conditions. In this case, particularly, the experiments were performed by using a sand box (7.0 x 3.5 x 2.0 meters) which allows to be reproduced a medium-large scale natural environment. SP signals were recorded continuously by using an array of 32 unpo-larizable electrodes connected to a multiplexed high impedance and resolution multimeter. Better results came out from laboratory experiments where most of the so called cultural noise was reduced at a negligible amount. The results have proved that SP tomographic images represent a good tool for monitoring the changes of water fluxes in the vadose zone under the boundary conditions which are discussed in the work.
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