Pb(II) Removal from Kaolinite by Electrokinetics

Hamed, Jihad; Acar, Yalçin B.; Gale, Robert J.

doi:10.1061/(asce)0733-9410(1991)117:2(241)

Cited by 275 publications

(113 citation statements)

References 18 publications

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“…The resulted pH profiles for the 5 tests performed shown in the Figure 4.12 were originated exclusively from the redox reactions of water at the electrodes and demonstrated to have the same pattern as the profiles determined by Hamed et al (1991). The acidic electrolyte solution generated at the anode reservoir flowed across the soil sample lowering the pH to values around 3 to 4 until near to the cathode the pH rose to values about 8 to 9 because of the basic conditions produced by the reduction of water.…”

Section: Iv25 the Ph Profile Water Content And Contaminant Distribumentioning

confidence: 63%

“…Simultaneously, vigorous production of OH-took place at the cathode because of the electrochemical reduction of water. Accounting for these occurrences, the hydraulic properties of the soil could be altered by dissolution of salts and clay minerals, adsorption/desorption interactions, precipitation of metal hydroxides and cation exchange (Hamed et al, 1991). The complexity of the soil system turned very difficult to interpret the specific causes of the changes of the electrical properties soil core.…”

Section: Iv1 Experimental Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Electrochemical processes for in-situ treatment of contaminated soils. Annual progress report, September 1996--May 1997

Huang¹,

Cha²,

Chang³

et al. 1997

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Section: Iv25 the Ph Profile Water Content And Contaminant Distribumentioning

confidence: 63%

Section: Iv1 Experimental Methodsmentioning

confidence: 99%

Electrochemical processes for in-situ treatment of contaminated soils. Annual progress report, September 1996--May 1997

Huang¹,

Cha²,

Chang³

et al. 1997

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“…A number of important apparatuses that have been used for soil remediation by electrokinetics are mentioned here. The apparatuses currently available for the purpose of electrokinetic remediation include those developed at Louisiana State University [31,79], Lehigh University [52,80,81], University of Texas at Austin [11,82], the University of California at Berkeley [3,83], Massachusetts Institute of Technology [38,47,59], Texas A & M University [6], The Technical University of Denmark [84,85], Vanderbilt University, Nashville, Tennessee [86], Royal Institute of Technology, Stockholm, Sweden [87][88][89], University of South Carolina [58] and many others. A comprehensive review of the apparatus used in the EKD experiments has been presented by Yeung et al [6].…”

Section: Instrumentationmentioning

confidence: 99%

“…A comprehensive treatise on removal of Pb (II) from kaolin is reported by Hamed [34] and Hamed et al [79]. The process removed about 75 % to 95 % of Pb (II) at concentrations up to 1500 g g -1 across the test specimen at a energy expenditure of 29-60 kWh m -3 of soil processed.…”

Section: Heay Metal Removal With Unenhanced Processmentioning

confidence: 99%

Electrokinetics and soil decontamination: concepts and overview (Review)

Karim

2014

J. Electrochem. Sci. Eng.

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“…EO was first explored as a means for de-watering clays for purposes of soil stabilization (Casagrande, 1952). In recent years, the potential of EO for removing contaminants from fine-grained sediments has been explored in both laboratory studies and field scale demonstrations (Hamed et al, 1991;Bruell et al, 1992;Segall and Bruell, 1992;Acar and Alshawabkeh, 1993;Lageman, 1993;Probstein and Hicks, 1993;Shapiro et al, 1993). Recently, the Lasagna™ Project at the Paducah Gaseous Diffusion Plant in Kentucky entailed utilizing EO to transport TCE to activated carbon or iron filing treatment zones within the electric field, resulting in an estimated removal efficiency of 98% in concluded, for example, that the costs associated with EO compare favorably to those of excavation and ex situ treatment in shallow soils, given a sufficient time to accomplish the cleanup.…”

Section: Introductionmentioning

confidence: 99%

In Situ Measurement of Electro‐Osmotic Fluxes and Conductivity Using Single Wellbore Tracer Tests

McNab

Ruíz

2001

Groundwater Monitoring Rem

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Electroosmosis (EO), the movement of water through porous media in response to an electric field, offers a means for extracting contaminated groundwater from fine-grained sediments such as clays that are not easily amenable to conventional pump-and-treat approaches. The EO-induced water flux is proportional to the voltage gradient in a manner analogous to the flux dependence on the hydraulic gradient under Darcy's law. The proportionality constant, the soil electroosmotic conductivity or k eo , is most easily measured in soil cores using bench-top tests where flow is one-dimensional and interfering effects attributable to Darcy's law can be directly accounted for. In contrast, quantification of EO fluxes and k eo in the field under deployment conditions can be difficult because electrodes are placed in groundwater wells that may be screened across a heterogeneous mixture of lithologies. As a result, EO-induced water fluxes constitute an approximate radial flow system that is superimposed upon a Darcy flow regime through permeable pathways that may or may not be coupled with hydraulic head differences created by the EO-induced water fluxes. A single well comparative tracer test, which indirectly measures EO fluxes by comparing well bore tracer dilution rates between background and EO-induced water fluxes, may provide a means for routinely quantifying the efficacy of EO systems in such settings. EO fluxes measured in field tests through this technique at a groundwater contamination site were used to estimate a mean k eo value through a semi-analytic line source model of the electric field. The resulting estimate agrees well with values reported in the literature as well as values obtained by bench-top tests conducted on a soil core collected in the test area.

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Pb(II) Removal from Kaolinite by Electrokinetics

Cited by 275 publications

References 18 publications

Electrochemical processes for in-situ treatment of contaminated soils. Annual progress report, September 1996--May 1997

Electrochemical processes for in-situ treatment of contaminated soils. Annual progress report, September 1996--May 1997

Electrokinetics and soil decontamination: concepts and overview (Review)

In Situ Measurement of Electro‐Osmotic Fluxes and Conductivity Using Single Wellbore Tracer Tests

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