Potentiality of clays in the Kharga-Dakhla land stretch as a natural landfill liner in a hyperarid region

Q2 Earth and Planetary Sciences
A. E. Maghraby, A. E. Kammar, M. Mabrouk
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引用次数: 1

Abstract

Engineered landfill liner systems are expensive to install and represent a challenge to several developing countries. Alternatively, native soils, preferentially clays, can be used as cost-effective bottom liners. The purpose of this work is to justify the reliance on the ability of the clays at the Kharga-Dakhla land stretch, Western Desert, Egypt, to act as a containment and barrier for pollutants that might be generated in a landfill leachate. This is particularly valid in hyperarid regions where many environmental requirements for landfill liner design are relaxed, as precipitation is rare and percolation to buried wastes is practically absent. The availability of native clays and clay-bearing sediments in the study area, both on surface and subsurface, makes it a potential landfill site. Collaborating techniques have been used to determine the mineralogical, geochemical, and geotechnical characteristics of the sediments constituting the Quseir Formation (Upper Cretaceous). These techniques include x-ray diffraction analysis, differential thermal analysis, cation exchange capacity (CEC), swelling properties, Atterberg limits, porosity, and hydraulic conductivity. The obtained results indicate that the investigated clayey sediments are dense and compact. They have low hydraulic conductivity that ranges from 1 1010 to 4.96 1011 cm/s, with moisture content that does not exceed 7%. The swelling values of samples containing smectite range between 250 and 500%. The plasticity limit of the red clay (floor of the Dakhla Oasis) ranges between 11 and 18%, which indicates its suitability as a landfill lining material. Values for CEC are generally high and increase with increasing smectite content. It reaches as much as 69 meq/100-g sample, indicating enhanced ability for natural attenuation and can act within the containment system for metal pollutants. The obtained mineralogical, geochemical, and geotechnical data suggest that the studied clays can be used, effectively, as a viable alternative liner system for solid waste and/or secured landfills, replacing the costly state of the art liner systems. Satisfying siting criteria, the availability of the clays, and the easy way and their low cost of extraction provide a cost-effective solution to the problem of landfill lining in developing countries.
Kharga-Dakhla地块粘土作为超干旱地区天然填埋衬垫的潜力
工程填埋场衬垫系统的安装费用昂贵,对一些发展中国家来说是一个挑战。另外,天然土壤,最好是粘土,可以用作成本效益高的底衬。这项工作的目的是证明依赖埃及西部沙漠Kharga-Dakhla土地上的粘土作为垃圾填埋场渗滤液中可能产生的污染物的遏制和屏障的能力是合理的。这在极端干旱地区尤其有效,因为降水很少,对掩埋垃圾的渗透几乎不存在,因此对填埋场衬垫设计的许多环境要求都很宽松。研究区地表和地下天然粘土和含粘土沉积物的可用性使其成为潜在的垃圾填埋场。合作技术已被用于确定构成Quseir组(上白垩纪)沉积物的矿物学、地球化学和岩土学特征。这些技术包括x射线衍射分析、差热分析、阳离子交换容量(CEC)、膨胀特性、阿特伯格极限、孔隙度和水力导电性。研究结果表明,所研究的粘土沉积物致密致密。水导率低,为1 1010 ~ 4.96 1011 cm/s,含水率不超过7%。含蒙脱石试样的溶胀值在250 ~ 500%之间。红粘土(达克拉绿洲底)的塑性极限在11% ~ 18%之间,适合作为填埋场衬砌材料。CEC的值通常很高,并随着蒙脱石含量的增加而增加。高达69 meq/100 g样品,表明自然衰减能力增强,可以在金属污染物的遏制系统内发挥作用。获得的矿物学、地球化学和岩土技术数据表明,所研究的粘土可以有效地用作固体废物和/或安全垃圾填埋场的可行替代衬管系统,取代昂贵的先进衬管系统。满足选址标准、粘土的可获得性、提取方法简单且成本低,为解决发展中国家的垃圾填埋问题提供了一种经济有效的解决方案。
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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来源期刊
Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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