共查询到18条相似文献,搜索用时 193 毫秒
1.
目前,刻画场地重非水相液体(dense non-aqueous phase liquid, DNAPL)污染常用的钻孔取样和井间分溶示踪试验方法成本高昂。相比而言,单井注抽试验节省经费,且对污染源区的扰动少,但该试验方法推估DNAPL残留量的准确性尚未得到定量验证。针对该问题,基于数值方法分析了示踪剂类型、注抽速率、污染源区结构等因素对单井注抽试验推估DNAPL残留量精度的影响。结果表明:(1)选用分溶系数比2,2-二甲基-3-戊醇(2,2-dimethyl-3-pentanol, DMP)低的己醇进行示踪,示踪剂回收更加充分,推估污染物残留量的平均精度增幅可达35.11%;(2)当注入速率从100 m3/d提高至130 m3/d、抽出速率从120 m3/d提高至150 m3/d,示踪剂接触的污染源区面积更大,均质源区对应的污染物残留量平均精度从42.45%提高到60.26%,非均质源区对应的平均精度从27.69%提高至48.72%;(3)污染源区结构复杂程度的增加会阻碍示踪剂的运移,非均质源区对应的平均精度比均质源区降低了13.15%;(4)单井注抽示踪试验更适用于离散状为主的污染源... 相似文献
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含水层非均质性的刻画是模拟地下水中污染物运移的关键。以渗透系数为研究对象,构建了综合集合卡尔曼滤波方法、有效电阻率模型与地下水运移模型的同化框架,通过融合地球物理观测数据与污染物浓度观测数据来推估渗透系数的空间分布。基于理想算例,验证了该同化框架刻画含水层非均质渗透系数场的有效性,并针对不同初始参数信息与观测类型对比了耦合与非耦合水文地球物理方法的适用性。研究结果表明:基于集合卡尔曼滤波方法同化多种类型的观测数据,可有效地推估非均质参数空间分布。当初始信息较准确时,耦合方法的参数推估精度更高;初始信息存在偏差时,非耦合方法有更好的同化效果。由于非耦合方法计算成本较低且对初始信息缺失时适用性更强,在实际应用中可先基于非耦合方法初步估计参数,再利用耦合方法进一步提高参数推估精度。融合多种类型观测数据可有效提高参数推估效果。 相似文献
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4.
多孔介质中重非水相液体(Dense Non Aqueous Phase Liquid,DNAPL)与水相的界面面积是影响DNAPL在地下水中溶解速率的关键参数。本文通过二维均质砂箱实验,运用界面分配示踪法和体积分配示踪法分别测定DNAPL与水相的界面面积(单位介质体积内的面积,Anw)和DNAPL饱和度(Sn),并研究两者之间的相关关系。使用C18H29NaO3S(SDBS)作为界面分配示踪剂,Alcohol(2,4 Dimethyl 3 Pentanol)作为体积分配示踪剂,CaBr2作为保守示踪剂。利用Fe2+催化的Na2S2O8对DNAPL进行原位氧化修复,改变Anw和Sn。结果表明,通过定量(用孔隙体积数PV值衡量)加入Na2S2O8,Anw由206 cm2逐渐降为37 cm2,下降速率约为14 cm2/PV;Sn由1.34%逐渐降为0.33%,下降速率约为0.1%/PV;Anw和Sn之间具有良好的线性关系(Anw=146×Sn,R2=0.987)。此关系可用于估算多孔介质中DNAPL与水相之间的界面面积。对实验影响因素的分析表明,孔隙度的增大(变化率为20.7%)使示踪剂穿透曲线出现肩现象和拖尾现象,导致保守示踪剂的保留时间增加5.6%,界面面积减小6.8%。 相似文献
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重非水相液体(Dense Non-Aqueous Phase Liquid,DNAPL)与水相的界面面积是影响DNAPL在地下水中溶解速率的关键参数。通过设计二维砂箱实验,运用界面分配示踪法测定DNAPL残余饱和态下的界面面积。为量化分析保守示踪剂Br~-的存在对实验结果的影响,共进行两组实验,Br~-和界面分配示踪剂的注入方式分别为依次注入和同时注入。结果表明:(1)两组实验测定的固液相分配系数K_d值分别为0.079 m L/g和0.142 m L/g,表明Br~-的存在增大了介质对界面分配示踪剂的吸附作用;(2)两组实验测定的单位体积多孔介质中界面面积值分别为215 cm~2和237 cm~2,表明Br~-的存在增大了DNAPL与水相交界面对界面分配示踪剂的吸附作用;(3)在本实验范围内(Br~-浓度C_(Br)≤200mg/L),K_d值与Br~-浓度呈良好的线性关系(K_d=0.00032C_(Br)+0.0798),可用于对砂介质的K_d值进行估算和验证。 相似文献
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以某污染厂区为研究对象,通过野外调查并结合已有资料,利用GMS软件建立研究区域地下水流场模型和溶质运移模型,并且详细分析了地下水污染规律。研究结果表明:降雨入渗扩散方式下,污染物在地下水中的迁移速率与污染物的浓度及地下水介质密切相关。在潜水含水层中,污染物主要以垂向运移为主,并且受污染源强影响较大,污染物浓度越高,其垂向运移速率越快,污染物在水平面上的扩散速率受污染源强的影响较小;在承压含水层中,污染物沿水流方向迁移,并且呈现匀速扩散趋势。 相似文献
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重质非水相有机污染物(DNAPL)泄漏到地下后,其运移与分布特征受渗透率非均质性影响显著。为刻画DNAPL污染源区结构特征,需进行参数估计以描述水文地质参数的非均质性。本研究构建了基于集合卡尔曼滤波方法(EnKF)与多相流运移模型的同化方案,通过融合DNAPL饱和度观测数据推估非均质介质渗透率空间分布。通过二维砂箱实际与理想算例,验证了同化方法的推估效果,并探讨了不同因素对同化的影响。研究结果表明:基于EnKF方法同化饱和度观测资料可有效地推估非均质渗透率场;参数推估精度随观测时空密度的增大而提高;观测点位置分布对同化效果有所影响,布置在污染集中区域的观测数据对于参数估计具有较高的数据价值。 相似文献
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根据含水层中水、表面活性剂和DNAPLs的运移规律和相互作用机理, 建立三维多相流数值模拟模型, 用以模拟表面活性剂强化的DNAPLs污染含水层的修复过程.将所建立的模型应用于一个被PCE污染的非均质含水层中, 并分别对污染物的污染过程以及修复过程进行模拟.研究结果表明: 数值模拟模型给出了表面活性剂强化含水层修复过程中非水相流体迁移转化的数学描述, 能够在短时间内、参数有限的条件下真实地刻画DNAPLs在含水层中的运移规律, 并能有效地模拟表面活性剂的修复过程.此外, 模拟结果显示, 由于表面活性剂对PCE的增溶增流作用, 有效地提高了PCE在水中的溶解性和迁移性, 其修复40 d的去除率达到63.5%, 与抽出处理法(去除率为31.8%)相比修复效果明显增强. 相似文献
9.
图像分析法是处理有色示踪剂模拟槽实验结果的常用方法之一。本文以食用亮蓝为示踪剂,从污染物的检测精度和污染羽描绘的准确度两个方面将图像分析法与传统取样法进行对比,并利用Matlab编程对模拟槽内的污染物贮存质量进行定量计算。结果表明,与传统取样法结果相比:图像分析法的检测精度可提高1个数量级;污染羽的描绘准确度至少可提高3%左右,在实验所设置的非均质条件下可提高17%左右。利用自行编制的Matlab程序对本实验模拟槽内贮存亮蓝质量进行计算可得,当剖分格数为3 7002(1 369万)时,亮蓝贮存质量的计算值最接近实测值,最小误差仅为0.5%。综合来讲,图像分析法是一种准确度高、空间分辨率高的信息采集和处理手段,可实现对非均质地层中有色示踪剂运移过程更为精细的描述。 相似文献
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基于钻孔抽水试验和示踪试验的岩溶地区含水层结构研究 总被引:3,自引:2,他引:1
岩溶含水层具有强异质性和各向异性特征,其空间结构的调查和认识是地下水流动和污染物迁移研究的重要基础。然而,岩溶含水层特殊的地质结构导致岩溶区水文地质调查非常困难。为了更好地掌握研究区岩溶含水层结构特征,本文在进行抽水试验的同时开展多示踪剂(荧光素钠、罗丹明、荧光增白剂)示踪试验。利用Theis标准曲线对比法分析抽水试验数据,计算试验场地渗透张量,根据示踪试验结果分析含水层结构性质。计算出研究区渗透张量主方向的导水系数分别为:0.297 m2·h-1和0.028 m2·h-1,给水度为1.19E-04,优势方向为东偏南18.47°。抽水条件下示踪试验获得3种示踪剂的回收率分别为:荧光素钠97.98%,罗丹明B47.34%,荧光增白剂39.54%;平均流速分别为:0.378 m·h-1、0.3 m·h-1和0.14 m·h-1,反映研究区岩溶孔隙、裂隙较小,示踪剂运移慢、时间长。荧光素钠和荧光增白剂的BTC曲线表现为单峰型,罗丹明B的BTC曲线表现为多峰型,表明研究区既发育优势流裂隙,又发育相对均匀裂隙。同时,示踪剂最大回收率方向与抽水实验所得渗透张量主方向相符。研究结果为岩溶含水层精细结构的刻画,水文模型物理参数的确定提供了方法和依据。 相似文献
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Jae-Ha Yang Seong-Chun Jun Hyung-Pyo Kwon Kang-Kun Lee 《Environmental Earth Sciences》2014,71(1):407-417
Depth-discrete tracing of residual dense non-aqueous phase liquid (DNAPL) sources in the subsurface is of great importance in making decisions related to contaminated groundwater remediation. Temporal variations in the natural tracer 222Rn and contaminant concentrations in groundwater contaminated with multiple chlorinated contaminants, such as trichloroethene, carbon tetrachloride, and chloroform, were examined to trace residual multiple DNAPL contaminants at an industrial complex in Wonju, Korea. The 222Rn activities and multiple DNAPL concentrations in the groundwater fluctuated irregularly according to the groundwater recharge. The natural tracer 222Rn in groundwater present in the soil layer, originating from the underlying crystalline biotite granite, had a wide range from 29,000 to 179,000 Bq/m3, and total concentrations of chlorinated solvents ranged from 0.06 to 17.77 mg/l, indicating the ambiguous results of 222Rn for tracing the residual DNAPL sources. In this paper, a method is presented to locate zones with a high probability of containing depth-discrete residual multiple DNAPL sources using 222Rn and considering relative contaminant concentrations. The results demonstrate that the combination of the 222Rn activities as a natural tracer and the relative contaminant concentrations is able to be used as a useful tool for tracing residual DNAPLs. 相似文献
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Partitioning tracer method for quantifying the residual saturation of refined petroleum products in saturated soil 总被引:1,自引:1,他引:0
The effective site assessment is crucial to the successful remediation of the subsurface contaminated with light nonaqueous
phase liquids (LNAPLs). Recent studies showed that large spatial volumes of the subsurface contaminated with LNAPLs could
be investigated with the partitioning tracer method. This study investigated the applicability of the partitioning tracer
method for detecting and quantifying refined petroleum products in a saturated aquifer containing alluvial soil or weathered
granite soil. In the batch-partitioning experiments, the partition coefficients of alcohol tracers between the petroleum mixture
and water were measured, and they were found to be increased in proportion to the boiling points of the alcohol tracers when
the molecular weights of the alcohol tracers were similar. The sorption isotherm experiments indicated that a considerable
amount of 4-methyl-2-pentanol was sorbed into Jumunjin sand (JS) or weathered granite soil (WGS). In the column experiments,
it was confirmed that the partitioning tracer method could be used as a method for detecting the presence of the petroleum
mixture in saturated soil, and the residual saturation of the petroleum mixture in the soil column prepared by firstly contaminating
with the petroleum mixture and secondly saturating with water was measured higher than that in the soil column prepared by
firstly saturating and secondly contaminating. The highest accuracy of estimation using the partitioning tracer method was
found for 2-ethyl-1-butanol and the lowest accuracy was found for 4-methyl-2-pentanol. 相似文献
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The mechanisms for storage of CO2 in rock formations include structural/stratigraphic, mineral, solubility and residual trapping. Residual trapping is very important in terms of both containment security and storage capacity. However, to date, the contribution from residual trapping (i.e. immobilisation of supercritical fluid via capillarity in pore spaces) is still relatively difficult to quantify accurately. Using a laboratory-based testing program, this study demonstrates the feasibility of using reactive ester tracers (i.e. triacetin, propylene glycol diacetate and tripropionin), which partition between a mobile water phase and a stationary supercritical CO2 phase, to quantify the residual CO2 saturation, Sgr, of a rock formation. The proposed single-well test involves injecting these tracers into the subsurface, followed by CO2 saturated water, where the ester tracers slowly hydrolyse to form products with differing partition coefficients. After a suitable period of time, allowing for partial hydrolysis, water containing the tracer mixture is produced from the subsurface and analysed using gas chromatography mass spectrometry (GCMS). A numerical simulator of the tracer behaviour in a reservoir is used to explain the differential breakthrough of these tracer compounds during water production to estimate Sgr. Computer modelling suggests that the use of esters tracers to determine CO2 residual saturation is a potentially robust method. The supercritical CO2/water partition coefficients directly dictate the amount of time that each tracer spends in the CO2 and water phases. As such for modelling of tracer behaviour and estimating Sgr, knowing the tracer partition coefficient is essential; in this paper, the first laboratory study to determine the partition coefficients of these reactive ester tracers is described. 相似文献
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重非水相液体(dense nonaqueous phase liquid,DNAPL)污染土壤和地下水的问题已引起广泛关注,研究其在不同粒径多孔介质及其界面的运移特征形态是确定污染区域、修复治理土壤和地下水环境的前提。文章通过室内试验研究多孔介质界面对DNAPL运移与分布特性的影响。首先在二维砂槽上进行DNAPL污染物的入渗试验,试验过程中用数码相机拍照,将DNAPL扩散过程以图像的形式记录下来;然后用AutoCAD对图片进行处理,绘制出DNAPL迁移过程的锋面变化图。结果表明:DNAPL入渗过程中,迁移主要受到重力作用与毛细作用的控制,毛细作用力随着介质粒径的增大逐层减小,重力作用逐渐起主导作用使污染物入渗速度逐层增大;介质结构影响DNAPL的迁移形态,介质粒径逐层增大,DNAPL污染物的渗流面与指进扩散宽度逐层减小,扩散方式由面状变为指状;在不同粒径介质界面介质结构发生突变时,DNAPL迁移锋面线曲率也相应变大,此时DNAPL的迁移呈现“凸”型特征,另外,不同的界面横向扩散的滞留宽度不同,随着介质粒径的增大,界面的横向扩散宽度相对变短。 相似文献
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Quantification of the saturation degree of nonaqueous phase liquid in the vadose zone using hydrocarbon partitioning tracers 总被引:1,自引:1,他引:0
Partitioning tracer tests, as an alternative to the core sampling method, were conducted to quantify the degree of saturation
of water and nonaqueous phase liquids (NAPL) in the vadose zone. Hydrocarbon gases, which have less effect on global warming
than conventional tracers, were used as partitioning tracers. Column tests using CH4, C3H5, and C4H10 as non-partitioning and partitioning tracers were performed to determine the retardation factor and partition coefficient
of the tracer into water and NAPL. The retardation factors of these tracers were estimated to be in the range of 1.0–7.0 based
on breakthrough curves of the tracers. The partition coefficient of C3H5 to water and diesel phase was calculated to be 0.57 and 8.45, respectively. For a heavier tracer, C4H10, the partition coefficient to the water and diesel phases was 1.2 and 40.5, respectively. The average value of water and
diesel saturation estimated from column tests agreed well with known values in unsaturated soil. A residence time longer than
7.5 h within soil pores was found to provide local equilibrium partitioning of the tracer to the diesel phase. The concentration
of tracer had no effect on the partitioning process. 相似文献
16.
重非水相(DNAPLs)是地下水常见的有机污染物,理解其运移机制对于污染物修复具有重要意义。为解释实验中多孔介质润湿性对DNAPL的流动速度及残余饱和度的影响,使用多相流相场法,在构造的二维孔隙中模拟DNAPL液滴的下落过程。结果表明:模拟能准确刻画多相流界面的不稳定性,重现与实验室尺度相似的现象。文章提出的双界面模型相较于以往的微观模型能够更好的解释介质润湿性对DNAPL运移的影响。DNAPL的下落速度受前后界面共同影响,而饱和度主要由后界面决定。同时,润湿性对运移的影响大小受制于多孔介质的非均质性。 相似文献
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在二维均质饱和孔隙介质中利用光透法与高密度电阻率法定量监测重非水相液体(DNAPL)的运移过程与饱和度。 将光透法与高密度电阻率法相结合,进行高密度电阻率法对 DNAPL 在饱和多孔介质中渗流过程的定量监测。在二维砂箱 中进行 DNAPL 的入渗试验,应用光透法与高密度电阻率法进行动态监测,分别利用 CCD 相机、LCR 数字电桥采集数据。 光透法的数据处理采用“水-DNAPL”两相中 DNAPL 饱和度的计算公式。而高密度电阻率法的数据处理是将获得的电阻值 数据转化为电阻率值,然后利用 Archie 公式获得重非水相液体的饱和度空间分布。Archie 公式中参数β值本文采用与光透法 相结合的新方法来获取,克服了传统方法获取β值时存在的困难。根据不同时刻的饱和度空间分布可以估算注入砂箱内的 DNAPL 总量,并将其与实测的入渗量进行对比。结果表明,与光透法结合后的高密度电阻率成像法能定量监测饱和孔隙介 质中 DNAPL 的入渗过程,且估算的 DNAPL 入渗量与实测值比较吻合,提出的基于光透法计算β值的新方法是有效且可行的。 相似文献
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Pollution source characterization by the Partitioning Interwell Tracer Test method requires the assessment of the partitioning coefficient of the tracers with the pollutant. Experiments conducted on batch tests (static) and laboratory columns (dynamic) indicated a partitioning kinetics between the reactive tracer (4-methyl 2-pentanol) and the organic phase (trichlorethene); the partitioning coefficient decreases when the flow velocity through the porous medium increases. This partitioning kinetics has been confirmed by the interpretation of the tracer breakthrough curves with a first-order kinetic transfer model. To cite this article: M. Bohy et al., C. R. Geoscience 336 (2004). 相似文献