Characterizing the hydraulic conductivity of soil based on the moving average of precipitation and groundwater level using a regional database

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-08-01 DOI:10.2166/aqua.2023.044
Bok-Cheon Kim, Gyeomju Roh, Jiyeong Lee, Jong-Seong Yoon, Junhwan Lee
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Abstract

Hydraulic conductivity is an important geological and geotechnical characteristic, necessary for flow-related problems and underground construction. In many countries, databases for hydrology parameters and groundwater level (GWL) are well established, often not fully utilized for directly estimating hydraulic conductivity characteristics. In this study, a method for estimating hydraulic conductivity based on a regionally established database of hydrological, geological, and geotechnical parameters is proposed. For this purpose, 68 databases of hydrological, geological and geotechnical parameters in different regions in Korea were collected and adopted to develop a data-based estimation method of soil hydraulic conductivity. The time response of GWL to precipitation was considered as a key influence factor on the hydraulic conductivity of soil, as it directly affected the infiltration process of rainfalls into soil deposits. Moving average (MA) of precipitation was introduced, which gave the best correlation to GWL, to account for the effect of accumulated precedent precipitation. Case examples were selected and used to check the validity of the proposed method.
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基于降水和地下水位移动平均的区域数据库表征土壤的水力导电性
导流率是一项重要的地质和岩土工程特征,是解决流体相关问题和地下施工所必需的。在许多国家,水文参数和地下水位(GWL)数据库建立得很好,但往往没有充分利用这些数据库直接估计水力传导特性。在这项研究中,提出了一种基于区域建立的水文、地质和岩土参数数据库估算水力传导性的方法。为此,收集了韩国不同地区的68个水文、地质和岩土参数数据库,并采用这些数据库开发了基于数据的土壤水力导电性估算方法。GWL对降水的时间响应被认为是影响土壤水力导电性的关键因素,因为它直接影响降雨入渗到土壤沉积物中的过程。为了解释累积降水的影响,引入了与GWL相关性最好的降水移动平均(MA)。通过实例验证了所提方法的有效性。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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