膨润土-聚合物复合再生土在垃圾填埋场衬砌中的适用性研究

IF 0.4 Q4 ENGINEERING, GEOLOGICAL
E. Shin, H. Lee
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引用次数: 0

摘要

本研究对膨润土-聚合物混合料再生土进行了研究,以期设计出经济的填埋方式来代替粘土衬垫。SP是一种砂质土,含砂90.58%,粉砂和粘土1.88%。将回收土壤与重量为4%、6%和8%的膨润土混合,然后与重量为2%、3%和4%的膨润土在海洋粘土中混合的样品进行比较。再生土的渗透率为8%,粘土的渗透率为3%。为了制作出符合垃圾填埋场标准的样品,在膨润土混合比为4%的样品中,分别加入0.16%、0.24%、0.28%的聚合物进行渗透性试验。在相同配比下进行了无侧限抗压强度试验,证实了其性能符合要求。随着膨润土掺量的增加,渗透系数和无侧限抗压强度减小。聚合物混合过程中强度先增大后保持恒定。在膨润土掺量为4%、聚合物掺量为0.28%时,渗透系数小于1.0×10cm/sec,无侧限抗压强度大于500 kPa。试验结果表明,它可以作为垃圾填埋场的混合衬里材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Applicability of Recycled Soil Mixed with Bentonite-Polymer for Waste Landfill Liner
In this study, it was studied recycled soils with bentonite-polymer mixture in order to design economic landfill instead of clay liner. Recycled soil was used as SP, a sandy soil with 90.58% sand and 1.88% silt and clay. The recycled soils were mixed with 4%, 6%, and 8% bentonite by weight, and then compared with samples mixed with 2%, 3%, and 4% bentonite by weight in marine clay. Recycled soil satisfied the permeability criteria at 8%, and clay soil satisfied at 3%. In order to make a sample that satisfies the standard of the waste landfill, a permeability test was conducted by mixing 0.16%, 0.24%, and 0.28% of the polymer in a sample having 4% bentonite mixing ratio. The unconfined compression strength test was carried out at the same mixing ratio to confirm that the specification was satisfied. As the bentonite mixture ratio increased, the permeability coefficient and unconfined compression strength decreased. The strength in polymer mixing increased initially and then maintained a constant value. At 4% bentonite mixing ratio and 0.28% polymer mixing ratio, the coefficient of permeability was 1.0×10cm/sec or less, and the unconfined compression strength was over 500 kPa. It was confirmed that it can be used as a mixed liner material of waste landfills.
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