Spatial variability analysis of subsurface soil in Mashhad city, NE Iran

Q4 Earth and Planetary Sciences

International Journal of Mining and Geo-Engineering Pub Date : 2016-12-01 DOI:10.22059/IJMGE.2016.59832

S. Nasseh, N. H. Moghaddas, M. Ghafoori, O. Asghari, J. B. Bazaz

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引用次数: 3

Abstract

Reliable characterization of subsurface soil in urban areas is a major concern in geotechnical and geological engineering projects. In this regard, this research deals with development of a 3D geological engineering model on Mashhad City soil using Sequential Gaussian Simulation (SGS) approach. The intense variability of soil in the study area has sometimes caused serious problems in civil engineering projects in the city. Therefore, a better understanding of these deposits is critical for current and future civil engineering work. The main objectives of this study were investigating the spatial variability of soil through variograms and then predicting the values of soil properties at unsampled locations using SGS method. In this study, some geotechnical index parameters including percentage of fine grained material, plasticity index, and liquid limit have been employed as input data. A database including the data of 1750 boreholes was built and the hard data were transformed into normal scores in order for them to be applicable as input data in SGS modeling. Maps related to the average of all realizations along with Coefficient of Variation (CV) were provided for each variable as well. Then the maps were interpreted according to Mashhad City sedimentary environment.

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伊朗东北部马什哈德市地下土壤空间变异分析

城市地下土壤的可靠表征是岩土工程和地质工程项目中的一个主要问题。为此，本研究利用序贯高斯模拟(SGS)方法建立了马什哈德城市土壤三维地质工程模型。研究区土壤的强烈变异性有时会给城市土木工程带来严重的问题。因此，更好地了解这些沉积物对当前和未来的土木工程工作至关重要。本研究的主要目的是通过变异函数研究土壤的空间变异性，然后使用SGS方法预测未采样地点的土壤性质值。本研究采用细粒材料百分比、塑性指数、液限等岩土指标参数作为输入数据。建立1750个井眼数据数据库，将硬数据转换为正态分数，作为SGS建模的输入数据。与所有实现的平均值以及变异系数(CV)相关的地图也为每个变量提供了。然后根据马什哈德市的沉积环境对地图进行了解释。

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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