Improvement of the Index and Compaction Characteristics of Black Cotton Soil with Palm Kernel Shell Ash

Oluwatudimu, O. E., Sadeeq, J. A., O. K. J.
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引用次数: 1

Abstract

The expansive soil obtained from Baure in Yamaltu Deba Local Government Area was rich in clay mineral (montmorillonite), unstable and difficult to use for construction purposes. The soil treated with up to 12% palm kernel shell ash (PKSA an agro – waste) by weight of dry soil to improve index properties and compaction characteristics of the soil using PKSA.  Index tests were carried out to classify the natural soil, while the moisture-density relationships were determined by compaction tests on the natural and treated soils using three energy levels viz, British Standard light (BSL), West African Standard (WAS) and British Standard heavy (BSH). BCS used in the study was classified as A-7-5 (20) using the American Association of State Highway and Transportation Officials (AASHTO) and CH group in the Unified Soil Classification System (USCS). Tests results show that specific gravity of the soil increased from 2.29 for the natural to 2.34 at 12% treatment. Liquid limit decreased from 76.2% for natural to 73.4% at 10% PKSA content. Plastic limit increased from 40% for the natural soil to 47.1% at 12% PKSA content treatment. Maximum dry density (MDD) values decreased from 1.44Mg/m3, 1.5Mg/m3 and 1.65Mg/m3 for the natural soil to 1.38Mg/m3 at 10%, 1.45Mg/m3 at 10% and 1.56Mg/m3 at 6%  PKSA content for BSL, WAS and BSH compaction energy levels respectively. On the other hand, optimum moisture content (OMC) value decreased from 28.5% and 22.4% for the natural soil to 22.4% and 21.0% at 12% PKSA content for BSL and WAS energies respectively while the value for BSH energy increased from 18.2% to 19.0% at 8% PKSA content. Results show that PKSA is suitable for the improvement of the index properties and compaction characteristics of BCS; and its beneficial use will reduce the attendant disposal problem on the   environment.
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棕榈仁壳灰对黑棉土指标及压实特性的改善
从Yamaltu Deba地方政府地区的Baure获得的膨胀土富含粘土矿物(蒙脱石),不稳定,难以用于建筑目的。以干土重量为12%的棕榈仁壳灰(PKSA一种农业废弃物)处理土壤,以改善PKSA土壤的指标性质和压实特性。采用指数试验对天然土壤进行分类,同时采用英国标准轻(BSL)、西非标准(WAS)和英国标准重(BSH)三个能级对天然土壤和处理过的土壤进行压实试验,确定水分-密度关系。使用美国国家公路和交通官员协会(AASHTO)和统一土壤分类系统(USCS)中的CH组将研究中使用的BCS分类为A-7-5(20)。试验结果表明,土的比重由自然处理时的2.29提高到12%处理时的2.34。当PKSA含量为10%时,液限由天然的76.2%降至73.4%。当PKSA含量为12%时,土壤的塑性极限由天然土的40%提高到47.1%。BSL、WAS和BSH压实能量水平的最大干密度(MDD)分别从天然土壤的1.44Mg/m3、1.5Mg/m3和1.65Mg/m3降至10%、10%和6% PKSA含量下的1.38Mg/m3、1.45Mg/m3和1.56Mg/m3。另一方面,当PKSA含量为12%时,BSL和WAS能量的最佳含水率(OMC)分别从天然土壤的28.5%和22.4%下降到22.4%和21.0%,而当PKSA含量为8%时,BSH能量的最佳含水率(OMC)从18.2%上升到19.0%。结果表明,PKSA适用于改善BCS的指标性能和压实特性;它的有益利用将减少随之而来的环境处理问题。
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