共查询到17条相似文献,搜索用时 171 毫秒
1.
针对非等温分布条件下由土工膜(geomembrane,简称GMB)+土工复合膨润土衬垫(geosynthetic clay liner,简称GCL)+压实黏土衬垫(compacted clay liner,简称CCL)组成的3层复合衬垫中有机污染物一维瞬态运移问题,考虑了对流、扩散、机械弥散、吸附、降解和热扩散等因素,建立了相应的数学模型。该模型可考虑扩散系数和渗透系数等参数随温度变化。利用有限差分法,获得了该模型的数值解。通过将所建模型计算结果分别与试验结果、已有解析模型计算结果和COMSOL软件计算结果进行对比,验证了所建模型的正确性。基于所定义的击穿时间tb,以甲苯作为代表性有机污染物分析和讨论了不同因素对运移行为的影响。结果表明:(1)非等温分布条件会使渗透系数、扩散系数和线性吸附系数等参数发生变化,其中渗透系数和扩散系数的变化会加快运移过程,尤其是扩散系数,而线性吸附系数的变化会减慢运移速率;(2)复合衬垫上部和底部温度差ΔT的增大会使击穿时间tb减小,底部运移通量Jb增大;当ΔT为0、10、20、30、40 ... 相似文献
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有机污染物在垃圾填埋场复合衬垫中有两种不同的运移方式:土工膜上缺陷处污染物的运移和完好复合衬垫中污染物的扩散。文章分别用有限差分法和解析法对两种方式下污染物的累积量进行计算,分析了两种方式对有机污染物运移所做的贡献。研究表明:GCL(人工合成材料粘土衬垫)复合衬垫以有机污染物在完好复合衬垫中的扩散为主,可以忽略缺陷处污染物的运移;而CCL(压实黏土衬垫)复合衬垫中两种运移方式所做的贡献在同一数量级,需要考虑两种方式的共同作用。在GCL复合衬垫下铺设粘土层能有效改善GCL复合衬垫对有机污染物的阻止效果。 相似文献
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土工合成材料粘土衬垫(GCL)与土工膜(GM)形成的复合衬垫在垃圾填埋场中的应用日益广泛。我国规范中允许在特殊情况下用GCL代替压实粘土(CCL)做垃圾填埋场的衬垫,但是对于“特殊情况”没有明确说明。本文采用数值方法对复合衬垫中无机污染物的对流和扩散进行了计算,从衬垫底部污染物通量和累积量两个角度对GCL复合衬垫和CCL复合衬垫阻滞污染物运移的效果进行了比较,分析两种复合衬垫的等效性,并研究了GCL复合衬垫的适用范围。结果表明,当渗滤液水头较高时,GCL复合衬垫体现出其优势。 相似文献
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压实黏土衬垫是填埋场等环境岩土工程中常用的屏障材料,其厚度和渗透系数是主要的设计参数。考虑渗透系数的变异性,用衬垫底部污染物相对浓度和通量等指标分析了设计参数对衬垫有效性的影响。研究表明,渗透系数的变异性对衬垫性能有很大的影响:当衬垫厚度较小或渗透系数均值较大时,衬垫底部出现高浓度(接近于1)的概率很大,这个浓度区间可能比相对浓度的均值高很多,对周围环境污染有较大的威胁。从非反应性溶质的运移来看,我国规范中对衬垫厚度和渗透系数的规定是合理的。相对于污染物的通量,厚度和渗透系数对衬垫底部相对浓度的影响更为显著,相对浓度更适合作为评价衬垫性能的指标。 相似文献
5.
以单层压实黏土衬垫为研究对象,在传统对流弥散方程的基础上考虑温度梯度下污染物的热扩散运移,得到简化条件下半无限边界的解析解。研究表明,考虑热扩散效应所得的衬垫底部相对浓度和通量均大于传统对流弥散方程所得结果,ST越大时相对浓度和通量也越大,当ST=0.5 K-1时稳定通量达到ST=0时稳定通量2.5倍。热扩散通量是对流通量的-ASTD/v倍,两者均随时间的增加而增大;分子扩散通量则先增加达到峰值后减小趋于零。同时考虑温度对运移参数的影响和热扩散效应时,温度升高使衬垫底部相对浓度增大,导致击穿时间提前,污染物通量显著增大;当温度从30℃升高至70℃时,击穿时间从8.5 a提前至5.1 a,稳定通量增大约1.7倍。在进行衬垫设计时不考虑温度的影响将使污染风险大幅增加。 相似文献
6.
有机污染物在复合衬垫中的运移以扩散方式为主。目前关于运移参数不确定性及其对衬垫性能影响的研究还不多,复合衬垫厚度的设计也没有考虑不确定性的影响。总结了运移参数已有的成果,采用蒙特卡罗法研究了半无限条件下运移参数的变异性对衬垫底部污染物质量浓度和通量的影响,并对衬垫厚度进行了设计。研究表明:土工膜中有机污染物的分配系数和扩散系数的变异性对质量浓度和通量的影响可以忽略,而土中有机污染物的扩散系数和阻滞系数的变异性对其影响则非常显著。确定性方法计算的结果偏于危险,有必要加强对土中有机污染物的扩散系数和阻滞系数概率特性的研究。以甲苯为例进行黏土衬垫厚度设计,结果表明:概率计算方法得到的黏土衬垫厚度约为确定性方法的1.71~1.81倍,采用概率方法进行衬垫设计更合理。 相似文献
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8.
利用广义积分变换法推导了非等温条件下污染物在压实黏土衬垫中的运移解析解。所提出的解析解考虑了分子扩散、对流、吸附和热扩散的耦合效应,并考虑了压实黏土的渗透系数、分布系数和有效扩散系数3个参数随温度的变化。通过与热扩散试验结果、已有的解析解和基于COMSOL软件的数值模型的对比,验证了所提出的解析解。利用经过验证的解析解,研究了非等温环境以及压实黏土的渗透系数、有效扩散系数和分布系数3个参数随温度的变化对甲苯在压实黏土衬垫系统中迁移的影响。结果表明,非等温环境以及压实黏土的渗透系数、有效扩散系数和分布系数随温度的变化均对甲苯在压实黏土衬垫中迁移有着显著的影响。不考虑非等温环境的影响将极大低估污染物的溢出量和污染物的击穿时间。既有解析解忽略压实黏土的渗透系数和有效扩散系数随温度的变化会极大低估甲苯的流出速率,而忽略压实黏土分布系数随温度的变化会极大高估甲苯击穿衬垫系统的时间和达到稳态的时间。所提出的解析解能够考虑热扩散作用,同时考虑了压实黏土的渗透系数、分布系数和有效扩散系数3个参数随温度的变化,较既有解析解更贴近工程实际,能够为压实黏土衬垫系统的设计和服役性能评价提供指导和借鉴。 相似文献
9.
压实粘土衬垫是填埋场等环境岩土工程中常用的屏障材料,其表面的干燥裂隙可能对衬垫的有效性有一定的影响。将整个衬垫分为受裂隙影响的表面土层和不受裂隙影响的下部土层两部分,把饱和渗透系数和裂隙扩展深度看作随机变量,采用蒙特卡洛法分析衬垫底部污染物相对浓度和通量的概率特征。研究表明,由于衬垫底部出现高浓度(接近于1)的概率较大,这个浓度区间可能比相对浓度的均值高很多,对周围环境污染有较大的威胁,因此确定性方法得到的结果存在较大的风险;考虑表面裂隙导致渗透系数的增大,得到的结果更为合理;保证衬垫足够的厚度可以降低表面裂隙土层饱和渗透系数的变化对衬垫防渗效果的影响;将两层土的渗透系数看作独立随机变量,得到的结果偏于安全。 相似文献
10.
填埋场中垃圾降解作用产生的热量在黏土衬垫中的运移会形成温度场,温度场会对污染物的运移产生影响。文章在多孔介质热力学理论和污染物运移理论相结合的基础上,主要考虑温度场对污染物扩散的影响,建立了非等温条件下有机污染物在黏土衬垫中的一维扩散模型,并采用分离变量法得到了模型的解析解。基于文中模型,对比了非等温条件和等温条件下有机污染物在黏土衬垫中的运移。非等温条件的黏土衬垫底部浓度比等温条件下的浓度大,非等温模型比等温模型更偏于安全。解析解可为实验数据的拟合及分析、衬垫的设计提供参考。进一步的参数分析表明:增大阻滞因子Rd和黏土厚度L可以减小黏土衬垫底部由温度梯度引起的有机污染物浓度。 相似文献
11.
Flux equations for liquid and solute migration through clay barriers that behave as semi-permeable membranes used in waste containment and remediation applications, known as clay membrane barriers (CMBs), are discussed. The results of a simplified analysis of flow through a geosynthetic clay liner (GCL) using measured values for the chemico-osmotic efficiency coefficient (ω) of the GCL indicate a total liquid flux that counters the outward Darcy (hydraulic) flux due to chemico-osmosis associated with clay membrane behavior of the GCL. Also, the solute (contaminant) flux through the GCL is reduced relative to the solute flux that would occur in the absence of membrane behavior due to chemico-osmotic counter advection and solute restriction. Since diffusion commonly controls solute transport through GCLs and other low-permeability clay barriers, the implicit (empirical) correlation between ω and the effective salt-diffusion coefficient of the migrating contaminant is an important consideration with respect to contaminant restriction in CMBs. 相似文献
12.
Non-dimensional solutions to the equations for the combined advective and diffusive one-dimensional transport of heat and solute in a layer are derived for fixed temperature/concentration on the boundaries and initial conditions of a linear gradient across the layer or a step function at the lower boundary. The solutions allow distinction of regimes in which advective or diffusive transport of either heat or solute predominate as a function of fluid flux, time and a length scale. The much lower diffusive coefficients for solute than heat results in a significant range of length scales and fluid flux rates characterised by advection of matter and diffusion of heat. The advective velocity of a component is a function of its fluid:rock partition coefficient. The most rapidly transported tracers which partition largely into the fluid phase, such as He, will travel orders of magnitude faster than heat or compatible solutes such as oxygen. Geochemical profiles in boundary layer regions where both advective and diffusive transport are significant are shown to be particularly informative as to properties of the rocks related to fluid flow such as porosity, permeability, time scales and fluid flux rates. The importance of advection can be directly estimated from the asymmetry of the geochemical profiles across individual layers. 相似文献
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溶质在土工合成衬垫(GCL)长期入渗过程中具有明显的化学-渗透特性。室内渗透试验表明:阳离子之间的置换效应对GCL衬垫渗透系数影响较大,10 mM的CaCl2溶液使渗透系数上升至2.5×10-11 m/s,而30 mM的CaCl2溶液使渗透系数上升至5.6×10-11 m/s。渗透液体浓度的增加缩短了溶质穿透GCL的时间,且预饱和处理试剂对GCL渗透系数的变化影响较大,采用蒸馏水作为预饱和试剂处理GCL衬垫对其渗透系数的影响明显小于CaCl2溶液;建立了考虑膜效应和离子交换效应条件下溶质运移耦合动力学模型,并对GCL穿透试验过程中溶质浓度的变化进行了预测,仿真计算结果表明,10 mM和30 mM两种CaCl2溶液渗透条件下,Ca2+浓度变化的试验结果和计算结果均相吻合,验证了耦合动力学模型的可靠性;从Ca2+浓度及流量穿透曲线分布可知,化学-渗透效应可有效地延缓溶质的迁移速度。随着溶质浓度的降低,阻滞作用更显著。因此,在分析GCL衬垫中溶质入渗特征时,必须考虑化学-渗透效应的影响。 相似文献
14.
Kai Witthüser Dalinaidu Arnepalli Devendra N. Singh 《Geotechnical and Geological Engineering》2006,24(2):325-334
Contaminant transport through fractured rock mass is predominated by diffusion. This is due to the continuous interaction
of the mobile water present in the fracture network and relatively immobile pore water, which is adsorbed on the surface and
in the rock matrix itself. Even though the advective flow through the fracture network is high, besides sorption of rock mass,
the diffusive exchange into the rock mass leads to significant retardation of contaminant transport. Hence, for describing
contaminant transport in fractured rock mass, more precisely, the effect of retardation attributed to the matrix diffusion
must be taken in account. With this in view, a methodology, which can be employed for determination of the diffusion characteristics
of the rock mass, has been developed and its details are presented in this paper. Validation of the methodology has been demonstrated
with the help of Archie’s law. 相似文献
15.
随机水文地质学方法,较传统的确定性方法而言,是解决非均质含水层中水流和溶质运移问题的一种更为合理的手段。据以往研究,假设渗透系数场遵循对数正态分布,利用直接傅立叶变换方法来生成渗透系数随机场。应用基于随机理论的蒙特卡罗方法,来研究渗透系数的空间变异性对污染物运移结果的影响。实例研究表明,污染物在含水层中运移过程中污染羽的展布范围(二阶矩)随着渗透系数空间变异方差的增大而扩大,而污染羽在空间上的质心位置(一阶矩)基本不受方差的影响,仅取决于渗透系数随机场的均值大小。另外还分析了污染羽在各点的浓度变化方差和变异系数分别随渗透系数变异方差的变化状况。 相似文献
16.
Cement–bentonite walls are commonly used for remediation by containment or pollution prevention, in addition to their use as a barrier to water flow in more conventional construction. The results from an investigation of an in situ single-phase cement–bentonite slurry wall are detailed, with particular attention paid to the role of advective and diffusive fluxes in contaminant transport.
The wall under investigation was installed, using standard methods and with a normal mix design, in August 1995 in order to contain leachates arising from ‘piggy-backing’ of an existing ‘dilute and disperse’ landfill site. In September 1998, the wall was investigated during which the top of the wall was exposed at adjacent locations allowing the drilling of three boreholes using rotary coring techniques. Core recovery and quality were high and samples obtained during coring were retained for testing in the laboratory.
The material recovered was quite strong and not treatable by conventional soil testing and preparation techniques. In addition, the material was susceptible to drying upon exposure to the atmosphere, with an accompanying loss of structure. In spite of this, meaningful laboratory tests were undertaken. Hydraulic conductivity of the samples was measured using constant flow-rate methods and the relative importance of the diffusive flux was investigated using a variety of simple techniques. The advective flux was found to be the dominant contaminant transport process. The results of the laboratory test programme are presented and placed in the context of the long-term performance of cement–bentonite slurry walls. 相似文献
17.
Diffusion and sorption experiments using a DKS permeameter 总被引:2,自引:0,他引:2
The analysis of contaminant transport through clay liner is a relevant aspect in the design of industrial, urban and mining waste disposal systems, since these areas must be designed and operated to prevent contaminating substances from reaching underground water systems in unacceptable concentrations. The design requires an estimate of the potential contaminant transport rate. However, before any attempt at quantification can be made, values for transport mechanism control parameters must be established. Clayey materials are frequently used as contaminant barriers. In these materials, which have low hydraulic conductivity, the main contaminant transport mechanism is molecular diffusion. Parameters controlling transport for these conditions are the diffusion coefficient and sorption parameters. These parameters depend on soil constituents and characteristics as well as on the chemical constitution of the contaminant. The great complexity of the factors involved makes it necessary to determine the parameters of each type of soil. This paper discusses an equipment called DKS permeameter (diffusion, convection, sorption), for the study of soil-contaminant transport mechanisms, designed at the Institute for Soil Mechanics of the Ruhr-University Bochum, and some results obtained from its use at COPPE/Federal University of Rio de Janeiro (UFRJ), Brazil. This equipment determines the effective diffusion coefficient and sorption parameter with a better reflection of field conditions. The soil under study is a mix of sodium–bentonite that has low hydraulic conductivity (k=10−9 cm/s) with adequate liner characteristics. The result indicated the relevance of determining sorption parameters for structured soils, since the sorption perceived from batch test results using pulverised soil represents maximum soil capacity. Designs based on this parameter would overestimate the attenuation capacity of the liner. 相似文献