黄土作为西北地区填埋场覆盖层的可行性及设计厚度分析     

詹良通  焦卫国  孔令刚  陈云敏 《岩土力学》2014,35(12):3361-3369

中国西北地区气候以干旱和半干旱为主,黄土广泛分布。首先介绍了西北地区3个代表性城市近50 a的气候条件和3类黄土的粒径分布及储水能力,在此基础上利用Chen、Benson等提出的水量平衡分析方法对黄土土质覆盖层在我国西北地区应用的可行性进行了探讨,并计算分析了单一型黄土覆盖层的设计厚度。分析结果表明: 西北地区夏季高温多雨植被生长茂盛而冬季降雨较少,降水和腾发作用有较好的同步对应关系,适合土质覆盖层的应用。采用黄土作单一型土质覆盖层的设计厚度在0.54～1.92 m之间,从干旱、半干旱到半湿润气候区,设计厚度逐渐变厚,其具体设计厚度与气候条件和黄土种类密切相关;在同一气候区采用粉性黄土所需厚度最薄,而采用砂性黄土则最厚。西北地区采用黄土作填埋场终场土质覆盖层具有技术可行性和良好的经济效益,值得进一步开展工程实践和更深入的研究。  相似文献   

垃圾填埋场稳定影响因素敏感性神经网络分析   总被引：2，自引：0，他引：2  

涂帆  崔广强  林从谋  肖朝昀 《岩土力学》2010,31(4):1168-1172

垃圾填埋场稳定影响因素的选取和研究是稳定分析的重要组成部分,而确定主次要因素的方法就是进行影响因素敏感性分析。利用BP神经网络结合正交试验设计方法,对填埋场沿衬里滑移破坏的影响因素进行敏感性分析。通过对工程实例的计算,该方法与传统法有着相同的因素敏感性排序,但决定排序的极差值有所不同。由于该法能考虑多因素同时变化,故其极差值的大小更能反映因素敏感程度的差异。BP神经网络结合正交试验设计法与传统法相比能节省计算工作量。研究结果显示,影响填埋场滑移稳定性的最主要参数为复合衬垫层间最小摩擦角和垃圾的堆填坡角。因素敏感性排序的确定为填埋场的优化设计、施工、试验、运营管理提供了理论依据。  相似文献   

考虑龄期分层的固体废弃物填埋场边坡稳定分析     

范鑫萍  黄茂松  王浩然 《岩土力学》2016,37(6):1715-1720

固体废弃物填埋场长期使用过程中,垃圾土的强度参数随着龄期的变化而变化。在进行固体废弃物填埋场边坡稳定分析时考虑按龄期分层,基于极限分析上限理论,提出了转动-平动组合和多块体平动两种破坏机构。通过水平分层土坡算例的对比分析,验证两种破坏机构的合理性和有效性。进而对填埋场算例按龄期分层分析,结果表明,极限分析上限解的安全系数和破坏机制与强度折减有限单元法非常接近,多块体平动机构通过随机搜索所得的最危险滑裂面优于转动-平动组合机构。最后分析西班牙Coll Cardús固废填埋场,此填埋场是按龄期分层的典型复杂填埋场,运用两种破坏机构所得的安全系数和最危险滑裂面与有限单元法相符。算例分析表明,在不考虑水位的情况下,填埋体堆填时间越长越有利于填埋场的稳定。当填埋体按低、中、高龄期分层形成时,填埋场的整体稳定安全系数介于中龄期和高龄期的均质边坡之间。  相似文献   

A Topographic-Hydrogeologic Model for Solid Waste Landfill Siting     

L.V.A. Sendlein  R. C. Palmquist 《Ground water》1975,13(3):260-268

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Sand–Attapulgite Clay Mixtures as a Landfill Liner     

Amer A. Al-Rawas  Yahia E-A. Mohamedzein  Abdulaziz S. Al-Shabibi  Salem Al-Katheiri 《Geotechnical and Geological Engineering》2006,24(5):1365-1383

Absrtract This paper investigates the potential use of sand–attapulgite (palygorskite) mixtures as a landfill liner. The sand and attapulgite clay used in this study were brought from Wahiba (eastern Oman) and Al-Shuwamiyah (southern Oman), respectively. Initially the basic properties of the sand and clay were determined. Then the attapulgite clay was added to the sand at 5, 10, 20 and 30% by dry weight of the sand. The sand–attapulgite clay mixtures were subjected to mineralogical, chemical, microfabric and geotechnical analyses. The X-ray diffraction (XRD) qualitative analysis showed that attapulgite is the major clay mineral. The chemical compounds, exchangeable cations and cation exchange capacity (CEC) for the␣samples were determined. The CEC for the sand–clay mixtures is low but increases with the increase in clay content. The scanning electron microscope (SEM) examination showed that the addition of clay developed coating between and around the sand grains which results in filling the voids and reducing the hydraulic conductivity of the sand–clay mixtures. The hydraulic conductivity values for the pure clay and sand + 30% clay mixture prepared at 2% above optimum water content are slightly higher than hydraulic conductivity requirements for landfill liners but can be acceptable. The geotechnical study which included grain size distribution, Atterberg limits, specific gravity, compaction, hydraulic conductivity and shear strength tests showed that the sand+30% clay mixture prepared at 2% above optimum water content can be considered to satisfy the requirements for landfill liners. For all sand–clay mixtures no swelling was recorded and the addition of clay to the sand improved the shear strength.  相似文献   

A comparative study of waste landfill disposal in different countries     

Hongli LI Shenggao CHENG 《中国地球化学学报》2006,25(B08):105-105

This study draws attention to the fact that natural processes can mobilize thallium （Tl）, a highly toxic metal, which may enter the food chain with severe health impacts on the local human population. A rural area having independent Tl mineralization in southwestern Guizhou, China, was chosen for a pilot study. Tl contents of soils extracted by HNO3 in the study area range from 35-165 mg/kg in soils from the mining area, 14-78 mg/kg in alluvial deposits downstream, and 〈0.2-0.5 mg/kg in soils from the background area. Tl contents in ammonium acetate EDTA-extracted fraction are 0.013-1.3 mg/kg, less than 1% of concentration in HNO3-extracted fraction. The amounts of Tl in NH4Ac-extracted fraction were thought to be more exchangeable and bioavailable, i.e., immediately available to plants and/or available to plant roots over a period of years. Tl concentration in crops exhibits species-dependent preferences. The enrichment of Tl in edible crop species decreases in the following order： green cabbage〉chili〉Chinese cabbage〉rice〉com. The highest level of Tl in green cabbage is up to 500 mg/kg （DW）, surpassing the values of Tl in the soils （13-59 mg/kg）. The enrichment factor for TI in green cabbage is up to 1-10 when considering the HNO3-extracted Tl, but the factor highly rises to 30-1300 while considering the NH4Ac-extracted Tl. The average daily uptake of Tl by the local villagers through consumption of locally planted crops was estimated at about 1.9 mg per person, which is 50 times the daily ingestion from the Tl-free background area.  相似文献   

非平衡吸附模型在研究渗滤液对土壤污染影响中的应用     

陈记文  薛强  刘磊  赵颖 《岩土力学》2006,27(12):2186-2190

分析了有机污染物在土壤中的迁移转化机理，建立了非平衡吸附作用下渗滤液中有机污染物在土壤中迁移转化的动力学模型，给出了模型的数值解法，模拟出渗滤液在非平衡吸附作用下的污染过程；同时还探讨了模型参数降雨量p，垃圾土土层的厚度h，含水率θ等对有机污染物运移的影响。结果表明：在总的污染源一定的情况下，降雨量的增大和污染土层厚度的增大会使得下层土壤中有机物的浓度降低，为定量研究有机污染物在土壤-水环境系统中分配与归宿提供理论依据，同时也可为监测、治理和恢复地下水污染提供一定的科学根据。  相似文献   

Consolidation settlement properties of seashore landfills for municipal solid wastes in Korea     

Wooseok Bae 《Marine Georesources & Geotechnology》2017,35(2):216-225

The large amount of wastes is generated in metropolitan area where population is heavily concentrated. As a result, treatment of wastes became a social problem and geotechnical problems related to landfill have emerged in Korea. Settlement behavior of waste landfill is similar to behavior of peat that possesses relatively small time-dependent secondary compression alongside large initial compression. A number of researchers published their own settlement computations. However, accurate computation method for waste-reclaimed landfill has yet to be determined as the settlement mechanism is very complicated. Hence, it is important to examine the accurate settlement behavior of reclaimed ground by comparing the material properties from laboratory test and field monitoring and comparing the results with the theoretical equation. This study determines the consolidation coefficients according to the change of organic contents through the total volume reduction in fresh waste layer and initial void ratio change and examines the feature of settlement in each load stage. Moreover, the article attempts to investigate the characteristics of consolidation of the relevant reclaimed landfill and to determine the suitability of the equation by comparing the variables in theoretical equations obtained from the laboratory test and field monitoring. Moreover, to verify the compression characteristics of the waste-reclaimed landfill upon loading, consolidation test results were analyzed to conduct index study on the consolidation characteristics of the waste-reclaimed landfill.  相似文献