共查询到19条相似文献,搜索用时 203 毫秒
1.
为了增加土-膨润土泥浆墙回填材料对污染物的阻滞性能,本文采用活性炭对其进行改性。通过坍落度和土柱实验研究了添加活性炭对土-膨润土泥浆墙施工和易性、渗透性和兼容性能的影响,明确了活性炭添加量对泥浆墙渗透性和兼容性的作用规律。实验结果显示,满足泥浆墙墙体材料施工和易性要求的含水率范围随着活性炭质量分数增加而增大。活性炭质量分数为2%~10%的改性土-膨润土泥浆墙墙体材料渗透系数均小于1.0×10-7cm/s,满足垂直阻隔墙渗透系数要求。当活性炭质量分数≤2%时,活性炭的添加对墙体材料与苯酚溶液的兼容性能没有影响;随着活性炭质量分数的增大,苯酚对其不利影响加剧。当活性炭质量分数增大至10%时,活性炭改性土-膨润土泥浆墙不适用于苯酚污染地下环境。 相似文献
2.
采用压汞试验来研究水泥-膨润土固结体的微观孔隙结构特征,有助于从影响因素和机理上认识固结体的强度和渗透系数等宏观特性。试验研究结果表明:固结体的总孔隙体积、最可几孔径、各级孔隙分布以及临界孔径等孔结构特征与膨润土和水泥的用量密切相关。其中固结体的较大孔隙应主要由水泥水化产物构成,膨润土水化后会形成固结体的微小孔隙,并充填一部分大孔隙。 相似文献
3.
城市垃圾填埋场粘土基防渗浆材的实验研究 总被引:4,自引:0,他引:4
文章研制了一种低渗透系数并对污染物有一定吸附阻滞作用的浆材,即膨润土-粉煤灰-水泥(BFS)浆材,用于垃圾填埋场以防治渗沥液渗漏污染周围地下水和土壤。通过正交试验优选出了以膨润土为主的配方:膨润土22%~25%、粉煤灰20%~23%、水泥15%~18%、纯碱1.2%~1.4%、稀释剂TMH加量0.3%~0.45%。该浆材结实率大于99.6%,固结体28d渗透系数小于0.8×10-7cm/s,无侧限抗压强度小于2.0MPa,渗透系数比一般水泥粘土浆材降低约2个数量级。通过采自长春某垃圾填埋场的渗沥液进行固结体的渗透试验,该浆材的固结体对CODCr、氨氮和磷的吸附阻滞率均达到了82%以上。文章的创新点在于浆材配方的选材不但考虑了降低固结体渗透系数,使其符合规范要求,而且考虑了材料成分对渗沥液中污染物的吸附阻滞作用,同时降低了固结体的抗压强度和脆性,使其有一定的塑性和韧性,以适应填埋场的地基变形。 相似文献
4.
水泥系隔离墙被广泛应用于工业污染场地修复工程,但其防渗性能有待改善,且在高浓度、毒理性重金属污染作用下的化学相容性有待研究。通过室内试验研究了不同粒化高炉矿渣(GGBS)掺量、膨润土掺量和固化剂总掺量对水泥系隔离墙的强度和渗透特性的影响;综合考虑成墙效果和成本,选出固化剂掺量为20%(水泥、粒化高炉矿渣和膨润土掺量分别为8%、8%和4%)作为改性水泥系竖向隔离墙的最优配比。通过柔性壁渗透试验研究了重金属锌、铅污染作用下改性水泥系隔离墙试样的化学相容性。结果表明,重金属溶液作用下试样防渗性能的下降由重金属种类、重金属浓度以及试样孔隙液pH值三者共同决定。重金属种类对防渗性能的不利影响为:硝酸锌-硝酸铅>硝酸锌>硝酸铅。锌、铅溶液作用下试样的渗透系数为自来水作用下渗透系数的1.49~10.10倍,且重金属溶液的浓度越高渗透系数越大。在满足防渗要求前提下,该配比墙体材料能阻挡50 mmol/L的硝酸锌污染液、100 mmol/L的硝酸铅污染液和10 mmol/L硝酸锌-硝酸铅污染液。 相似文献
5.
现多数水泥土防渗工程都间接或直接的与地下腐蚀性介质环境接触,会导致水泥土防渗性能的降低甚至失效。因此,通过室内模拟试验,设计了不同的水泥掺入比,进行了在污水和清水环境下水泥土的渗透性能试验,研究了在不同龄期下水泥土的渗透系数变化规律,并同时分析了渗透后水泥土中离子浓度的变化规律。试验结果表明,在清水环境下,随着龄期的增长,水泥土的渗透系数逐步减小,60 d后随着龄期的增加,水泥土渗透系数减小的程度越来越缓慢;在污水养护条件下,龄期在60 d之前,水泥土渗透系数逐步减小,龄期在60 d之后,由于水泥土被侵蚀,致使水泥土随着龄期的增加,水泥土的渗透系数逐步增大;无论是清水还是污水环境,随着水泥掺量的增大,其渗透系数均逐步降低;在污水环境中,随着龄期的增加,其水泥土中的Ca2+,Mg2+,Cl?, 浓度均逐步增大,而清水环境中Mg2+,Cl?, 浓度均逐步减小。其研究成果可为水泥土防渗工程的抗渗性和耐久性设计和应用提供技术参数,具有重要的工程意义。 相似文献
6.
《岩土力学》2020,(3)
土-膨润土竖向隔离屏障广泛应用于城市工业污染场地。化学溶液作用下屏障材料的化学相容性,即渗透系数及其变化程度,是评价防污性能的关键因素。通过柔性壁渗透试验研究重金属铅-锌复合、六价铬作用下砂-膨润土竖向隔离屏障材料渗透系数的变化规律。由于无机盐溶液中铅、锌、钙对膨润土双电层的压缩,铅-锌复合、钙溶液作用下屏障材料试样渗透系数随金属浓度升高而增大。铅-锌复合作用下,金属浓度增至500mmol/L时试样渗透系数增幅达11倍,且无法满足防渗要求。相反,由于铬以阴离子络合形式存在,其对试样渗透系数影响相对小;与未污染状态测定结果相比,渗透系数增幅≤2倍。在膨润土孔隙比基础上,考虑无机盐溶液对膨润土膨胀特性的影响,建立无机盐溶液作用前后砂-膨润土竖向隔离屏障材料渗透系数统一预测方法。 相似文献
7.
《岩土力学》2021,(3)
土-膨润土竖向隔离屏障广泛应用于城市工业污染场地。化学溶液作用下屏障材料的化学相容性,即渗透系数及其变化程度,是评价防污性能的关键因素。通过柔性壁渗透试验研究重金属铅-锌复合、六价铬作用下砂-膨润土竖向隔离屏障材料渗透系数的变化规律。由于无机盐溶液中铅、锌、钙对膨润土双电层的压缩,铅-锌复合、钙溶液作用下屏障材料试样渗透系数随金属浓度升高而增大。铅-锌复合作用下,金属浓度增至500 mmol/L时试样渗透系数增幅达11倍,且无法满足防渗要求。相反,由于铬以阴离子络合形式存在,其对试样渗透系数影响相对小;与未污染状态测定结果相比,渗透系数增幅≤2倍。在膨润土孔隙比基础上,考虑无机盐溶液对膨润土膨胀特性的影响,建立无机盐溶液作用前后砂-膨润土竖向隔离屏障材料渗透系数统一预测方法。 相似文献
8.
为探究海泡石的添加对土-膨润土泥浆阻截墙材料的施工和易性、渗透性,以及对地下水重金属阳离子污染阻截性的影响,采用天然海泡石对土-膨润土泥浆阻截墙改性,并以铅污染为代表,进行了坍落度实验、渗透实验和吸附实验。结果表明:添加海泡石不会对土-膨润土-海泡石阻截材料施工和易性造成太大影响,海泡石掺量从0增加至30%,满足目标坍落度要求的含水率仅增加1%;在实验掺量范围内海泡石对泥浆阻截材料渗透性能的影响较小,材料渗透系数均小于10-7 cm/s,能够满足工程要求;材料对Pb2+的吸附是以化学吸附为主的吸附过程,海泡石掺量分别为0、5%、10%和20%时,泥浆阻截材料对Pb2+的吸附量依次为89.73、112.52、140.85、183.40 mg/g,温度降低,阻截材料吸附量也随之减少。在铅污染液的作用下,土-膨润土-海泡石阻截材料渗透系数逐渐上升,海泡石的存在能够延缓Pb2+对该阻截材料的侵蚀;渗出液pH和Pb2+质量浓度变化表明,在实验时间内阻截材料仍然起着阻截作用。 相似文献
9.
近年来土工织物膨润土垫(GCL)被越来越多地应用到各种防渗工程中,它的膨胀性和渗透性也成为了设计人员和研究人员所关注的焦点。通过水化膨胀试验、自由膨胀试验和渗透试验,研究了液体对GCL膨胀性能和渗透性能的影响以及膨胀性和渗透性之间存在的相关关系。试验结果表明, 水化液和渗透液的种类对GCL的膨胀性和渗透性有很大影响,其影响分别为:(1) 水化液相同时,渗透液的种类对GCL的渗透系数有影响,而渗透液相同时,水化液的种类对GCL的渗透系数也有影响;(2) GCL的水化膨胀量和渗透系数之间存在相关关系,水化膨胀量越大,渗透系数就越低;(3) GCL中膨润土的自由膨胀量和GCL的渗透系数之间也存在相关关系,自由膨胀量越大,GCL的渗透系数就越低。 相似文献
10.
针对垃圾填埋场防治沥出液渗漏的要求,研制了一种水泥基膨润土-粉煤灰-水泥(BFS)防渗浆材,该浆材具有渗透系数低、吸附阻滞性能好的特点。介绍了该浆材的材料及试验研究成果。 相似文献
11.
Nilo Cesar Consoli Karla Salvagni Heineck J. Antonio H. Carraro 《Geotechnical and Geological Engineering》2010,28(4):361-371
The objective of this study was to evaluate the effect of water-cement ratio and cement content on the hydraulic behavior of soil–cement–bentonite (SCB) and soil–bentonite (SB) mixtures permeated with water and diesel oil, to assist with the design of vertical cutoff walls constructed with those mixtures. The experimental program included unconfined compression tests, hydraulic conductivity tests and X-ray diffraction analysis. The test results indicated changes in hydraulic conductivity take place due to the variation of the water-cement ratio and permeant fluid. The hydraulic conductivity of the SB mixtures permeated with diesel oil was higher than the hydraulic conductivity of the same samples permeated with water. X-ray diffraction analyses suggest that this might be due to the decrease in double layer thickness and increase of seepage pore space imparted by diesel oil permeation. Conversely, Portland cement addition increased the hydraulic conductivity of the SCB specimens permeated with water, whereas subsequent diesel oil permeation reduced the hydraulic conductivity of the SCB specimens; this might be due to the relatively lower impact imparted by diesel permeation on the double layer characteristics of the bentonite stabilized with Portland cement. 相似文献
12.
以颗粒状钠基膨润土防水毯为研究对象,采用改造的GDS全自动环境岩土渗透仪开展渗透试验,研究温度和压力对渗透系数的影响。研究表明:低围压下膨润土防水毯的渗透系数随温度的增加而减小,温度较高时趋于平缓或略有增大;围压增为100 kPa时,渗透系数随温度的增加而增大。固有渗透率随温度的增加而减小;低围压下固有渗透率减小更显著,仅考虑流体物理性质变化的渗透系数估算值与实测值有很大差异。膨润土吸附结合水量随温度的升高而减小,不能解释膨润土防水毯渗透系数和固有渗透率随温度的变化规律。当温度升高时,粒间孔隙减小且颗粒状膨润土分解成凝胶态蒙脱石颗粒,在低围压下凝胶态蒙脱石颗粒层间距离减小,是渗透系数和固有渗透率随温度的升高而减小的主要原因。 相似文献
13.
以颗粒状和粉末状膨润土防水毯(GCLs)为对象,运用GDS (global digital systems)全自动渗透仪开展渗透试验,研究CaCl_2溶液作用下GCLs渗透性能的温度效应,初步探讨其机理。试验表明:当水化液为0.05mol/L的CaCl_2溶液时,两种GCLs渗透系数随温度升高呈现增大趋势;当水化液为去离子水时,颗粒状GCL渗透系数随温度升高而减小,粉末状GCL渗透系数随温度升高而增大。去离子水情况下,膨润土吸附结合水量随温度升高而减小;CaCl_2溶液作用下,吸附结合水量较去离子水情况大幅降低。当CaCl_2溶液浓度一定时,膨润土膨胀指数随温度升高而略有增大;当温度一定时,膨润土膨胀指数随CaCl_2溶液浓度升高而显著减小。以去离子水进行试验时:颗粒状和粉末状GCLs渗透系数随温度的变化主要影响因素为凝胶态蒙脱石数量,其次为流体黏滞系数和吸附结合水量;颗粒状GCLs膨润土孔隙结构越不均匀,凝胶态蒙脱石数量的影响就越显著,导致渗透系数随温度升高而减小、固有渗透率随温度升高显著降低。以CaCl_2溶液进行试验时,两种GCLs渗透系数随温度变化的主要受流体黏滞系数和吸附结合水量的影响,而受凝胶态蒙脱石数量的影响较小。孔隙溶液性质、温度和膨润土类型均对GCLs的防渗性能具有重要影响。 相似文献
14.
An unsaturated hydraulic conductivity model for compacted GMZ01 bentonite with consideration of temperature 总被引:1,自引:0,他引:1
W. M. Ye M. Wan B. Chen Y. G. Chen Y. J. Cui J. Wang 《Environmental Earth Sciences》2014,71(4):1937-1944
As one of the most important properties of compacted bentonite used as buffer/backfill materials, hydraulic conductivity is influenced by various factors including temperature, microstructure and suction (or degree of saturation), etc. Based on the readily available results of both temperature-controlled water-retention tests and unsaturated infiltration tests under confined (constant volume) conditions, influences of temperature and microstructure variations on unsaturated hydraulic conductivity of the compacted Gaomiaozi (GMZ01) bentonite were analyzed. Then, a revised unsaturated hydraulic conductivity model considering temperature effects and microstructure changes was developed. With this proposed model, prediction and comparison were made on the unsaturated hydraulic conductivity of the compacted GMZ01 bentonite at 20 °C. Results show that water-retention capacity of compacted GMZ01 bentonite decreases as temperature increases and the degree of the temperature influence depends on suction. Under confined conditions, influence of hydration on microstructure of compacted GMZ01 bentonite depends on pore size. The proposed model can well describe the variations of unsaturated hydraulic conductivity with suction at different temperatures. However, further improvement of the proposed model is needed to account for the phenomenon of inter-aggregate pores clogging that occurred at the initial stage of hydration of compacted GMZ01 bentonite under confined conditions. 相似文献
15.
Arash Alimardani Lavasan Chenyang Zhao Thomas Barciaga Alexander Schaufler Holger Steeb Tom Schanz 《Acta Geotechnica》2018,13(3):671-691
This paper numerically investigates the slurry shield tunneling in fully saturated soils with different hydraulic conductivities in short- and long-term scales. A fully coupled hydromechanical three-dimensional model that accounts for the main aspects of tunnel construction and the hydromechanical interactions due to tunneling process is developed. An elasto-plastic constitutive model obeying a double hardening rule, namely hardening soil model, is employed in the numerical simulations. The research mainly focuses on assessing the influence of soil hydraulic conductivity and the method to simulate backfill grouting in the tail void on the evolution of ground subsidence, excess pore water pressure and lining forces. Two different consolidation schemes have been taken into account to computationally address the tunnel construction in soil with low and high hydraulic conductivities. In addition, different methods are employed to simulate the tail void grouting as a hydromechanical boundary condition and to study its effects on the model responses. Finally, the influences of infiltration of the fluidized particles of grouting suspension into the surrounding soil and its corresponding time–space hydraulic conductivity evolution on the displacements and lining forces are studied. 相似文献
16.
In this study, an investigation was performed to determine if lime-stabilized sand–bentonite mixtures are appropriate for the construction of sanitary landfills liners. For this aim, the hydraulic conductivity tests were conducted in the laboratory on sand–bentonite mixtures and lime-stabilized sand–bentonite mixtures to evaluate the effect of wetting–drying cycles. The hydraulic conductivity tests were performed to see if their hydraulic conductivities are affected by wetting–drying cycles. First series of specimens have been prepared as a mixture of sand and bentonite only. In the first series of specimens, sand was mixed with bentonite in proportions of 20, 30, 40, and 50 %. In the second series of the specimens, lime in proportions of 1, 2 and 3 % by weight was added to the mixtures of sand–bentonite in proportions of 20, 30, 40, and 50 %. From the results of the tests, it was observed that while optimum water content increased, maximum dry density decreased with addition of lime to the sand–bentonite mixtures. Generally, the hydraulic conductivity increased with the addition of lime to the mixtures but at low percentages of lime (1–2 %), however, slight decreases in k were recorded. It was also observed that the wetting–drying cycles on the permeability test indicate cure effect on specimens with addition of lime which resulted in decreased the hydraulic conductivity. 相似文献
17.
砂-膨润土混合屏障材料渗透性影响因素研究 总被引:2,自引:0,他引:2
膨润土因具有渗透性低、阳离子交换能力高等优点被认为是最适合高放废物深地质处置库中屏障系统的缓冲材料,工程实践发现随着水化过程的进行,纯高压实膨润土强度不断降低,并最终影响到工程屏障系统功能的发挥。针对这一问题,在膨润土中加入一定比例的石英砂,可以有效地提高工程屏障的热传导特性、压实性、力学强度和长期稳定性,降低工程造价。本文研究了影响砂-膨润土混合物渗透性的主要因素,包括膨润土含量、粒径分布、含水量和干密度、压实方法以及膨润土类型等。结果表明,砂土混合物渗透性主要受膨润土的渗透性控制,渗透系数随着膨润土含量和干密度的增加而减小,当膨润土含量超过某一界限值后,继续增加膨润土含量对降低渗透系数的作用有限;细颗粒和级配良好的混合物渗透系数小,当土体内部发生渗透侵蚀将增大渗透系数;最优含水量条件下压实得到的渗透系数最低,高于最优含水量压实得到的渗透系数比低于最优含水量压实得到的渗透系数要小。 相似文献
18.
P. V. Sivapullaiah H. Lakshmi Kantha K. Madhu Kiran 《Geotechnical and Geological Engineering》2003,21(4):399-413
Locally available soils amended with sufficient bentonite are generally used for construction of liners for water and waste retention facilities. The amount of bentonite required to keep the hydraulic conductivity low varies with the nature of the local soil. Many studies have shown that bentonite content higher than 20% by weight is not usually required. This is also the case with Indian red earth containing predominantly quartz and kaolinite minerals. Incorporating bentonite, though keeps the hydraulic conductivity of soil low, increases the swelling and shrinkage potential; increases the loss of strength due to reduction in cohesion. This paper aims to improve the geotechnical properties of red earth and bentonite mixture with lime or cement. The studies reveal that the geotechnical properties of red earth with 20% by weight bentonite stabilised with 1% by weight of lime or cement are greatly enhanced, particularly after curing for 28 days. it has been shown that the early gain in strength is better with cement whereas its long-term strength gain is better with lime. 相似文献
19.
For materials of very low hydraulic conductivity used in the landfill liner systems, e.g., natural clay liners, soil-cement liners, etc., diffusion characteristics should be evaluated, as the transport mechanism of contaminant through them is diffusion controlled. Studies on the diffusion characteristics of the hardened liner materials, such as the soil cement, are relatively few compared with those of clayey soils. In this paper, diffusive characteristics of hardened liner materials (HLMs) applied to the liner system of Sudokwon Metropolitan Landfill in Korea, were studied. Laboratory pure diffusion column tests in the pure- and the advection-diffusion status were performed for the chemicals, NaCl, KCl, and CaCl2. To evaluate the diffusion coefficient of a HLMs system, a one-dimensional numerical transport program was developed for use in a multi-layered HLMs system. The range of dispersion coefficients of advection diffusion column tests was a little narrower than that of diffusion coefficients of pure diffusion tests, although the two coefficients were quite close. The effective diffusion coefficients of chloride ions of a HLMs were about a half of those in clayey soil due to the high density by compaction and curing. Diffusion coefficients of chloride ions in this study were correlated closely with hydraulic conductivities of the materials tested and were consistent with work in the literature. 相似文献