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1.
改性土-膨润土竖向隔离墙材料的压缩及渗透特性试验研究 总被引:1,自引:0,他引:1
膨润土系竖向隔离墙作为阻滞污染物的工程屏障有效且经济。采用沸石改性传统的土-膨润土竖向隔离墙存在抗腐蚀性弱等耐久性不足的同时,必须考虑其压缩、渗透等工程性质的变化。通过一维压缩固结试验,研究了不同沸石及膨润土掺量下膨润土系隔离墙材料的压缩固结和渗透特性。引入评价天然重塑黏土的压缩、渗透特性的归一化孔隙比e/eL和评价天然重塑黏土固有压缩特性的孔隙指数Iv两种归一化评价体系,进一步探讨了添加沸石改性前后膨润土系竖向隔离墙混合土的压缩和渗透特性。 相似文献
2.
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
3.
《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
4.
《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
5.
为了研究椰丝纤维和双聚高分子材料加固粉砂土的效果和机制,本文采用正交试验方法,通过掺加双聚高分子材料和椰丝纤维,针对影响加筋固化土的力学性能和渗透性的因素(椰丝纤维掺量、椰丝纤维长度和双聚材料掺量),进行无侧限抗压强度试验和渗透试验等分析研究。研究结果表明:在粉砂土中添加双聚材料固化剂和椰丝纤维,提高了土体的无侧限抗压强度和降低了土体的渗透性。椰丝纤维含量和双聚材料掺量对试样的无侧限抗压强度影响非常显著,椰丝纤维长度对试样无侧限抗压强度的影响显著。椰丝纤维含量和双聚材料掺量对试样渗透系数的影响显著,椰丝纤维长度对渗透系数的影响不显著。当纤维掺量为0.9%,双聚材料掺量为0.375%时,试样的无侧限抗压强度最大。纤维掺量为0.9%,双聚材料掺量为0.325%时,试样的渗透系数最小。 相似文献
6.
膨润土改性黄土衬里防渗性能室内测试与预测 总被引:2,自引:0,他引:2
试验测定了膨润土改性黄土试样的渗透系数,研究膨润土改性黄土用作废弃物填埋场衬里的可行性,为天然黏土匮乏地区防渗材料本土化提供依据。选取两种代表性黄土,即黏性较大的兰州黄土(LH)和砂性较大的榆林黄土(YH),分别向其中添加不同比例的两种膨润土后击实成样,利用柔性壁渗透仪测定改性黄土的渗透系数,分析了改性黄土渗透系数随膨润土添加率增大的变化规律,确定了满足衬里防渗要求的膨润土添加率。利用扫描电镜照片统计了改性黄土的孔隙特征参数,发现添加膨润土后黄土中原有的大孔隙被充填或分隔成更多的中、小孔隙,有效阻滞了渗流液体通过,从微观结构的角度揭示了改性黄土渗透性降低的实质。依据实测数据建立了膨润土改性黄土的渗透回归模型,据此可以预测不同添加量的膨润土改性黄土的渗透系数。 相似文献
7.
废旧轮胎胶粉用于填埋场衬垫材料改性,是提高衬垫系统有效性和扩展废旧轮胎资源化利用途径的一种手段。以高岭土作为黏性土的代表,开展废旧轮胎胶粉-高岭土混合土的力学和水力学性质试验,重点探讨胶粉掺量及尺寸对混合土渗透性、压缩性和收缩性的影响规律。研究表明,废旧轮胎胶粉-高岭土混合土的渗透系数、压缩系数、回弹指数、固结系数和体缩率等均随胶粉掺入比的增加而增大。高岭土及混合土的无侧限抗压强度大于200kPa,50kPa和200kPa压力下渗透系数满足≤1.0×10-7cm·s-1的要求,均属于中压缩性土,且体缩率小于体积应变合格值4%。与30目胶粉相比,12目胶粉-高岭土混合土压缩性和回弹量较小、固结系数较大,胶粉尺寸对无侧限抗压强度、体缩率和渗透系数的影响不显著。在本文试验条件下,为提高黏土衬垫对有机污染物的吸附能力并满足渗透性、强度及变形的要求,12目25%胶粉改性黏土可作为填埋场黏土衬垫材料。 相似文献
8.
锌离子污染对膨润土一维压缩特性影响试验研究 总被引:3,自引:0,他引:3
为研究锌离子对膨润土重塑土压缩特性的影响,对人工制备的受不同浓度Zn2+污染的高含水率膨润土开展一维压缩、自由膨胀率、物理化学性质和扫描电镜试验。试验结果表明,在竖向压力低于某临界值(200 kPa)时,相同压力下随着Zn2+浓度增大,膨润土的孔隙比和压缩指数均降低,但当Zn2+浓度高于某临界值(0.02 mol/L)时,继续增加污染浓度膨润土的孔隙比基本保持不变,压缩指数略有降低。当竖向压力超过该临界值(200 kPa)后,膨润土的孔隙比基本不受孔隙液物理化学性质影响,仅由竖向压力决定。此外,随着孔隙液Zn2+浓度增大,膨润土的孔隙液pH值和土样比表面积减小,颗粒直径增大,膨润土中蜂窝状结构遭到破坏,黏土矿物片逐渐团聚成大直径颗粒,小孔隙消失,生成一些大的团粒间孔隙。 相似文献
9.
利用扫描电子显微镜和ImageJ图像处理软件对不同膨润土掺量黄土试样的微结构和孔隙特征进行了统计分析,并与柔性壁渗透仪渗透试验结果进行了对比。电镜观察及孔隙统计结果表明,随着膨润土掺量不断增加,附着在黄土骨架颗粒上的蒙脱石等粘土矿物持续增多,黄土的孔隙数量急剧增多,相反,孔隙平均面积和平均直径呈下降趋势。将膨润土改性黄土的渗透系数与不同大小孔隙的面积比进行统计回归,发现大中孔隙对渗透系数有决定意义。以此为依据,建立渗透系数与有效孔隙隙比之间的关系,提高了传统回归关系的可靠程度。 相似文献
10.
采用磷酸镁水泥(MPC)对铅污染土进行固化/稳定化处理。基于无侧限抗压强度试验和渗透试验,研究了MPC添加量、水土比对固化污染土强度及渗透特性的影响规律。结果表明,固化土的强度随MPC添加量增加而增大,渗透系数减小;水土比对固化土的强度及渗透特性的影响均存在临界值,为0.45。低于临界值时,固化土的强度随着水土比的增加而增加,渗透系数随着水土比的增加而减小。压汞试验(MTP)结果表明,随MPC添加量的增大,固化土孔隙体积减小,水土比不超过临界值时,固化土孔隙体积随着水土比的增大而减小。扫描电镜试验结果表明,随着MPC添加量的增加,土颗粒团聚化越明显,胶结程度加强;水土比不超过临界值时,土颗粒团聚体增多。镁钾磷酸盐晶体(MKP)主要通过减少孔径大于1 ?m的孔隙体积来影响固化土的强度和渗透特性。 相似文献
11.
The combined effect of clay and moisture content on the behavior of remolded unsaturated soils 总被引:2,自引:0,他引:2
Naser A. Al-Shayea 《Engineering Geology》2001,62(4):319-342
The behavior of unsaturated clayey soil is highly influenced by the coupled interaction between water and clay content. Various aspects of the behavior of artificial clay–sand mixtures with variable water content were experimentally studied. Laboratory tests were utilized for the determination of consistency limits, the stress–strain relationship, strength parameters, hydraulic conductivity, and volume change characteristics for various combinations of water and clay content in soil mixtures.
Results presented for various clay–sand mixtures include: new normalized consistency limits; the combined effect of clay content and water content on the stress–strain relationship and on the strength parameters (c and φ); and the effect of clay content on hydraulic conductivity and swelling potential. The cohesion of clayey sand is found to increase with increasing water content to a certain limit, above which it decreases. The angle of internal friction for clayey sand is found generally to decrease with increasing water content. The degree of saturation is found to be better than the water content in explaining the strength behavior. The hydraulic conductivity sharply decreases with increasing clay content up to 40% beyond which the reduction becomes less significant. Simple empirical equations are proposed for predicting the swelling potential of clayey soils as a function of either the clay content or plasticity index. 相似文献
12.
钱塘江冲海积粉土以砂质粉土为主,呈“高粉性、低黏性”的地区特点,在地下水动水压力作用下极易产生渗透破坏。粉土是介于砂性土和黏性土之间的一种过渡类型土,工程性质既与砂性土不同又与黏性土有较大区别。采用自行研制的粉土抗渗强度测定设备,对钱塘江冲海积粉土5种典型样本和微层理原状样本进行了渗透稳定试验。结果表明,钱塘江冲海积粉土渗透稳定性差,抗渗强度低;砂质粉土临界水力比降icr为1.01~1.25,破坏形式为局部流土,从临界水力比降icr发展到破坏比降iF的过程是瞬间的,基坑开挖遇到该类土层极易产生渗透破坏;黏质粉土临界水力比降icr随黏粒含量增加而增加,从临界水力比降icr发展到破坏比降iF有个短暂的过程,是整体流土破坏;钱塘江冲海积粉土渗透稳定各向异性;渗流垂直微层理方向的临界水力比降icr最大,是渗流沿微层理方向icr的2.5倍左右。研究结果为粉土地基渗透破坏防治提供参考。 相似文献
13.
Yahia E.-A. Mohamedzein Mohammed H. Aboud 《Geotechnical and Geological Engineering》2006,24(5):1385-1401
A detailed study was performed to investigate the compressibility and the shear strength of a residual soil in Omdurman, Sudan.
The soil resulted from weathering of sandstone and mudstone. The soil is classified as sandy clayey silt (MH-CH) and is generally
partially saturated. Consolidation tests were performed to study the compressibility of the soil and UU, CIU and insitu tests
(CPT and SPT) were performed to study the shear strength characteristics of the soil. The characteristics of this residual
soil can generally be predicted using correlations proposed in the literature for transported soils. The soil is of low to
medium compressibility and exhibits slight apparent overconsolidation behavior. The soil dilates during shear and shows no
long term effective cohesion. Problems associated with open cuts in this soil are attributed to loss of strength upon saturation. 相似文献
14.
Hydraulic conductivity is a dominant parameter in the design of engineered waste disposal facilities such as landfill liners and covers, lagoon liners and slurry walls. It is of interest to a geotechnical or geo-environmental engineer to develop a predictive method of determining the hydraulic conductivity of fine-grained soils, in order to assess its suitability as a liner material. To predict the hydraulic conductivity of soils, researchers and geotechnical engineers have attempted to correlate it with index properties of the soils, such as the liquid limit, void ratio and specific surface. Based on the present study a predictive method has been developed in this paper to predict the hydraulic conductivity in terms of void ratio and shrinkage index (Liquid limit – shrinkage limit) for remoulded fine-grained soils. Though the initial conditions for the soil will affect the hydraulic conductivity behaviour to some extent, both the void ratio and soil characteristics are primary factors in affecting the hydraulic conductivity. Therefore for predictive purpose, the study of hydraulic conductivity behaviour of remoulded fine-grained soils as presented in this paper can be found to be useful for compacted soils also. 相似文献
15.
In this study, some limitations associated with modeling the hydraulic conductivity of soil improved with vertical drains are discussed. In addition, some limitations of conventional methodologies for deducing the hydraulic conductivity from oedometer or Rowe cell tests are investigated. An alternative approach for estimating the hydraulic conductivity in soils improved by vertical drains is discussed. This methodology will allow for simpler finite element modeling of consolidation due to vertical drains. The effectiveness of this technique has been demonstrated using a field study. 相似文献
16.
Soil-bentonite (SB) backfill is used extensively in cutoff walls at landfill sites; the walls are used as engineered geotechnical barriers for contaminant control. With increasing bentonite content, the coefficient of consolidation and hydraulic conductivity of the SB decrease. However, when the bentonite content is increased beyond a certain percentage, the hydraulic conductivity of the SB decreases very little. One of the aims of this paper is to introduce the concept of optimal bentonite content (OBC) for SB cutoff walls, in which the hydraulic conductivity (kh) is expected to be lower than 1?×?10?9 m/s. Additionally, the paper introduces a new index consolidation stress ratio, cvσ′, which is used to obtain the OBC. For this study, the initial water contents of the SB backfill material are selected to be 0.8, 1.0, and 1.2 times their corresponding liquid limits. The clayey soils are amended with different bentonite contents, 0, 5, 8, and 10% (by dry weight basis) for the oedometer tests. Then, piezocone penetration test (CPTU) is applied in SB cutoff wall at a landfill site in Jingjiang city, China. The results of the laboratory and field studies show that the introduction of a new index, cvσ′, is very useful for calculating the OBC and for evaluating the coefficient of consolidation and hydraulic conductivity of SB backfill. The advantage of SB backfill with OBC is that it can achieve the design requirement of very low hydraulic conductivity and improve the safety reserves. 相似文献
17.
高放废物地质处置岩体材料选取中,黏土岩因具有低渗透性、损伤自修复特性、对放射性核素具有良好的吸附作用等优点,被认为是一种合理的高放废物地质处置屏障。以黏土岩为研究对象,从黏土岩短期、长期力学特性等方面开展研究工作,主要内容如下:(1)进行黏土岩短期自然固结试验,确定了黏土岩的基本物理力学参数,主要包括前期固结压力、压缩指数等;(2)进行流-固耦合固结试验,试验结果表明盐水作用对黏土岩力学特性具有重要影响,且流-固耦合过程中的膨胀现象与黏土岩的黏土矿物含量和类型密切相关;(3)通过对黏土岩进行固结流变试验,研究黏土岩渗流-应力耦合作用下的长期力学特性,试验表明黏土岩具有明显的流变特性,且流变现象与载荷密切相关;(4)根据固结流变试验建立黏土岩一维流变本构模型,同时将模型计算结果与试验结果进行对比,分析表明,该模型能够很好地反映黏土岩一维固结流变特性。该研究对我国未来黏土岩高放废物处置库的规划、设计、选址和运营等具有重要的参考意义。 相似文献
18.
ABSTRACTThis paper presents the effectiveness of xanthan gum (XG) biopolymer in stabilising the expansive soil. The XG biopolymer is mixed with expansive soil in different proportions such as 0%, 0.2%, 0.5%, 0.8% and 1.0% by weight of the dry soil mass. The plasticity, compaction, swelling, compressibility, hydraulic conductivity, strength and durability characteristics of the treated and un-treated expansive soil are examined. Results show that the plasticity index of the treated soil mass initially increases but beyond 0.5% biopolymer addition it decreases sharply. The optimum moisture content and maximum dry density of treated soil, found out from light and heavy compaction tests, do not follow any definite trend. It is also found that increasing XG content increases compressibility slightly but, it reduces swelling pressure, differential free swelling value and hydraulic conductivity remarkably. On the other hand, time-dependent compressive strength and resistance to mass loss increases with increasing XG content. Microscopic examination confirms the formation of gel-like linkage, which brings about the modifications in the treated expansive soil. 相似文献