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Geotechnical and Geological Engineering

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14-03-2016 | State-of-the-Art Review

An Overview of Electrokinetic Consolidation of Soils

Authors: Mona Malekzadeh, Julie Lovisa, Nagaratnam Sivakugan

Published in: Geotechnical and Geological Engineering | Issue 3/2016

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Abstract

Electrokinetic stabilization is one of the techniques that improve the geotechnical properties of the soils. It was pioneered by Casagrande in late 1940s and has not seen much development since then, especially in large-scale field applications. Some bench scale studies have been carried out during the past two decades and there have been some small scale field studies and limited field applications, mostly on soft soils. Due to lack of understanding of the physiochemical and electrochemical changes in the soil during electrokinetic stabilization, uncertain energy costs, loss of efficiency with time and the corrosion of electrodes, this method is usually considered as a last resort for large-scale practical applications. The objective of this paper is to highlight the critical parameters affecting electrokinetic consolidation, and to discuss their effects on the efficiency of the process. A better understanding of these critical parameters and their effects will enable geotechnical engineers to design the electrokinetic consolidation operation more effectively and make it an economically viable process for many situations.

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Abdullah WS, Al-Abadi AM (2010) Cationic–electrokinetic improvement of an expansive soil. Appl Clay Sci 47(3–4):343–350. doi:10.1016/j.clay.2009.11.046 CrossRef

Acar YB, Alshawabkeh AN (1993) Principles of electrokinetic remediation. Environ Sci Technol 27(13):2638–2647. doi:10.1021/es00049a002 CrossRef

Acar Y, Alshawabkeh A (1996) Electrokinetic remediation. I. pilot-scale tests with Pb-spiked kaolinite. ASCE J Geotech Eng 122:173–185CrossRef

Acar YB, Gale RJ, Alshawabkeh AN, Marks RE, Puppala S, Bricka M, Parker R (1995) Electrokinetic remediation: basics and technology status. J Hazard Mater 40(2):117–137. doi:10.1016/0304-3894(94)00066-P CrossRef

Adamson LG, Rieke Iii HH, Grey RR, Chilingar GV (1967) Electrochemical treatment of highly shrinking soils. Eng Geol 2(3):197–203. doi:10.1016/0013-7952(67)90019-1 CrossRef

Alshawabkeh A, Acar Y (1996) Electrokinetic remediation. II: theoretical model. J Geotech Eng 122(3):186–196. doi:10.1061/(ASCE)0733-9410(1996)122:3(186) CrossRef

Asavadorndeja P, Glawe U (2005) Electrokinetic strengthening of soft clay using the anode depolarization method. Bull Eng Geol Environ 64(3):237–245. doi:10.1007/s10064-005-0276-7 CrossRef

Ballou E (1955) Electroosmotic flow in homoionic kaolinite. J Colloid Sci 10:450–460CrossRef

Bergado DT, Sasanakul I, Horpibulsuk S (2003) Electro-osmotic consolidation of soft Bangkok clay using copper and carbon electrodes with PVD, vol 26. ETATS-UNIS: American Society for Testing and Materials, West Conshohocken, PA

Bjerrum L, Moum J, Eide O (1967) Application of electro-osmosis to a foundation problem in a Norwegian Quick Clay. Géotechnique 17(3):214–235CrossRef

Burnotte F, Lefebvre G, Grondin G (2004a) A case record of electroosmotic consolidation of soft clay with improved soil-electrode contact. Can Geotech J 41(6):1038–1053CrossRef

Burnotte F, Lefebvre G, Grondin G (2004b) A case record of electroosmotic consolidation of soft clay with improved soil–electrode contact. Can Geotech J 41(6):1038–1053. doi:10.1139/t04-045 CrossRef

Casagrande L (1948) Electro-osmosis in soils. Paper presented at the Géotechnique, London, England

Casagrande L (1949) Electro-osmosis in soils. Géotechnique 1:1959–1977

Casagrande L (1952) Electro-osmosis stabilization of soils. J Boston Soc Civil Eng 39(1):51–83

Casagrande L (1983) Stabilization of soils by means of electro-osmosis. J Boston Soc Civil Eng ASCE 69(2):255–302

Chappell BA, Burton PL (1975) Electra-osmosis applied to unstable embankment. J Geotech Eng Div ASCE 101(GT8):733–739

Chen JL, Murdoch LC (1997) Field demonstration of insitu electroosmosis between horizontal electrodes insitu remediation of the geoenviroment. Paper presented at the proceedings ASCE annual convention, Minneapolis

Chen H, Mujumdar AS, Raghavan GSV (1996) Laboratory experiments on electroosmotic dewatering of vegetable sludge and mine tailings. Dry Technol 14(10):2435–2445CrossRef

Chien SC, Ou CY, Wang YG (2009) Injection of saline solutions to improve the electro-osmotic pressure and consolidation of foundation soil. Appl Clay Sci 44(3–4):218–224CrossRef

Diamond S, Kinter EB (1965) Mechanisms of soil-lime stabilization. Highway Res Rec 92:83–102

Ermakova EN, Kotik DS, Polyakov SV, Bösinger T, Sobchakov LA (2006) A power line as a tunable ULF-wave radiator: properties of artificial signal at distances of 200 to 1000 km. J Geophys Res. doi:10.1029/2005JA011420

Esrig MI (1968) Pore pressures, consolidation and electro-kinetics. ASCE J Soil Mech Found 94(SM4):899–921

Esrig MI, Henkel DJ (1968) Some aspects of soil mechanics in relation to vehicle mobility. Buffalo Inc.: Cornell Aeronautical Laboratory, New York

Evans HE, Lewis RW (1970) Effective stress principle in saturated clay. J Soil Mech Div ASCE 96(SM2):671–683

Fan X, Wang H, Luo Q, Ma J, Zhang X (2007) The use of 2D non-uniform electric field to enhance in situ bioremediation of 2,4-dichlorophenol-contaminated soil. J Hazard Mater 148(1–2):29–37. doi:10.1016/j.jhazmat.2007.01.144 CrossRef

Fetzer C (1967) Electro-osmotic stabilization of west branch dam. Trans Am Soc Civ Eng 133:540–563

Fourie AB, Jones CJFP (2010) Improved estimates of power consumption during dewatering of mine tailings using electrokinetic geosynthetics (EKGs). Geotext Geomembr 28(2):181–190. doi:10.1016/j.geotexmem.2009.10.007 CrossRef

Fourie AB, Johns DG, Jones CJFP (2007) Dewatering of mine tailings using electrokinetic geosynthetics. Can Geotech J 44:2CrossRef

Glendinning S, Jones CJFP, Pugh RC (2005) Reinforced soil using cohesive fill and electrokinetic geosynthetics (EKG). Int J Geomech 5(2):138–146CrossRef

Glendinning S, Jones CJFP, Lamont-Black J, Hall J (2008) Treatment of lagooned sewage sludge in situ using electrokinetic geosynthetics. Geosynth Int 15(3):192–204. doi:10.1680/gein.2008.15.3.192 CrossRef

Gray DH, Mitchell JK (1967) Fundamental aspects of electro-osmosis in soils. J Soil Mech Found Div ASCE 93(6):209–236

Hamir RB, Jones C, Clarke BG (2001) Electrically conductive geosynthetics for consolidation and reinforced soil. Geotext Geomembr 19(8):455–482. doi:10.1016/s0266-1144(01)00021-8 CrossRef

Helmholtz HLF (1879) Studies of electric boundary layers. Wied Ann 7:337–382CrossRef

Hu LM, Wu WL, Wu H (2012) Numerical model of electroosmotic consolidation in clay. Geotechnique 62(6):537–541CrossRef

Ivliev EA (2008) Electro-osmotic drainage and stabilization of soils. Soil Mech Found Eng 45(6):211–218. doi:10.1007/s11204-009-9031-6 CrossRef

Jayasekera S, Hall S (2007) Modification of the properties of salt affected soils using electrochemical treatments. Geotech Geol Eng 25(1):1–10. doi:10.1007/s10706-006-0001-8 CrossRef

Jayasekera S, Mewett J, Hall S (2004) Effects of electrokinetic treatments on the properties of a salt affected soil. Aust Geomech J 39(4):33–46

Jeyakanthan V, Gnanendran CT, Lo SCR (2011) Laboratory assessment of electro-osmotic stabilization of soft clay. Can Geotech J 48(12):1788–1802. doi:10.1139/t11-073 CrossRef

Johnston IW, Butterfield R (1977) A laboratory investigation of soil consolidation by electro-osmosis. Aust Geomech J G7:21–32

Jones C, Glendinning S, Huntley DT, Lamont-Black J (2006a) Soil consolidation and strengthening using electrokinetic geosynthetics—concepts and analysis. Millpress Science Publishers, Rotterdam

Jones CJFP, Glendinning S, Huntley D, Lamont-Black J (2006b) Case history: In-situ dewatering of lagooned sewage sludge using Electrokinetic geosynthetics (EKG). In: Kuwanao J, Koseki J (eds) Eighth International Conference on Geosynthetics. Millpress, Rotterdam, pp 539–542

Jones CJFP, Lamont-Black J, Glendinning S (2011) Electrokinetic geosynthetics in hydraulic applications. Geotext Geomembr 29(4):381–390. doi:10.1016/j.geotexmem.2010.11.011 CrossRef

Kalumba D, Glendinning S, Rogers C, Tyrer M, Boardman D (2009) Dewatering of tunneling slurry waste using electrokinetic geosynthetics. J Environ Eng 135(11):1227–1236. doi:10.1061/(ASCE)0733-9372(2009)135:11(1227) CrossRef

Kamarudin B, Mohd RT, Khairul AK (2010) Electrokinetic treatment on a tropical residual soil. Paper presented at the proceedings of the ICE—ground improvement

Kaniraj S, Yee JHS (2011) Electro-Osmotic consolidation experiments on an organic soil. Geotech Geol Eng 29(4):505–518. doi:10.1007/s10706-011-9399-8 CrossRef

Kaniraj ASR, Huong HL, Yee JHS (2011a) Electro-Osmotic consolidation studies on peat and clayey silt using electric vertical drain. Geotech Geol Eng 29(3):277–295. doi:10.1007/s10706-010-9375-8 CrossRef

Kaniraj S, Huong HL, Yee JHS (2011b) Electro-Osmotic consolidation studies on peat and clayey silt using electric vertical drain. Geotech Geol Eng 29(3):277–295. doi:10.1007/s10706-010-9375-8 CrossRef

Karunaratne GP, Jong HK, Chew SH (2004) New electrically conductive geosynthetics for soft clay consolidation. Paper presented at the GeoAsia 2004, Seoul, Korea

Kim K-J, Kim D-H, Yoo J-C, Baek K (2011) Electrokinetic extraction of heavy metals from dredged marine sediment. Sep Purif Technol 79(2):164–169. doi:10.1016/j.seppur.2011.02.010 CrossRef

Laursen S, Jensen JB (1993) Electro-osmosis in filter cakes of activated sludge. Water Resour 27(5):777–783

Lee G, Ro H, Lee S (2007) Effects of triethyl phosphate and nitrate on electro-kinetically enhanced biodegradation of diesel in low permeability soils. Environ Technol 28:853–860CrossRef

Lefebvre G, Burnotte F (2002) Improvements of electroosmotic consolidation of soft clays by minimizing power loss at electrodes. Can Geotech J 39(2):399–408CrossRef

Lewis RW, Humpheson C (1974) Numerical analysis of electro-osmotic flow in soils. ASCE J Soil Mech Found 11(3):51. doi:10.1016/0148-9062(74)91583-6

Liaki C, Rogers CDF, Boardman DI (2010) Physico-chemical effects on clay due to electromigration using stainless steel electrodes. J Appl Electrochem 40(6):1225–1237. doi:10.1007/s10800-010-0096-8 CrossRef

Lo KY, Ho KS, Inculet II (1991a) Field test of electroosmotic strengthening of soft sensitive clay. Can Geotech J 28(1):74–83CrossRef

Lo KY, Inculet II, Ho KS (1991b) Electroosmotic strengthing of soft sensitive clays. Can Geotech J 28(1):62–73CrossRef

Loch JPG, Lima A, Kleingeld P (2010) Geochemical effects of electro-osmosis in clays. J Appl Electrochem 40(6):1249–1254. doi:10.1007/s10800-010-0098-6 CrossRef

Lockhart NC (1983) Electro-osmotic dewatering of clays: influence of voltage. Colloids Surf A 6(3):229–238CrossRef

Lockhart NC (1992) Combined field dewatering—bridging the science-industry gap. Drying Technol 10(4):839–874. doi:10.1080/07373939208916485 CrossRef

Lockhart NC, Stickland RE (1984) Dewatering coal washery tailings ponds by electroosmosis. Powder Technol 40(1–3):215–221. doi:10.1016/0032-5910(84)85067-6 CrossRef

Lomize GM, Netushil AV (1958) Elektroosmoticheskoe vodoponizhenie. WorldCat, Moskva

Long E, George W (1967) Turnagain slide stabilization, An- chorage, Alaska. J Soil Mech Found Div ASCE 93(4):611–627

Luo Q, Wang H, Zhang X, Qian Y (2005) Effect of direct electric current on the cell surface properties of phenol-degrading bacteria. Appl Environ Microbiol 71(1):423–427. doi:10.1128/aem.71.1.423-427.2005 CrossRef

Micic S, Shang JQ, Lo KY, Lee YN, Lee SW (2001) Electrokinetic strengthening of a marine sediment using intermittent current. Can Geotech J 38(2):287–302. doi:10.1139/t00-098 CrossRef

Miller S, Murphy A, Veal C, Young M (1999) Electrodewatering of sewage sludge—pilot scale studies. American Filtration & Separations Society, Northport

Mitchell JK (1991) Conduction uhenomena: from theoiy to geotecinical practice. Géotechnique 41(3):299–340CrossRef

Mitchell JK (1993) Fundamentals of soil behavior. Wiley, New York

Mitchell JK, Soga K (2005) Fundamentals of soil behavior, 3rd edn. Wiley, Hoboken

Mohamedelhassan E, Shang JQ (2001a) Analysis of electrokinetic sedimentation of dredged Welland River sediment. J Hazard Mater 85(1–2):91–109. doi:10.1016/S03043894(01)00223-0 CrossRef

Mohamedelhassan E, Shang JQ (2001b) Analysis of electrokinetic sedimentation of dredged Welland River sediment. J Hazard Mater 85(1–2):91–109. doi:10.1016/S0304-3894(01)00223-0 CrossRef

Muraoka AB, Linarèsj K, Varret F (2011). Two-dimensional Ising-like model with specific edge effects for spin-crossover nanoparticles: a monte carlo study. Phys Rev B84. doi:10.1016/j.seppur.2011.02.032

Olsen HW (1972) Liquid Movement through kaolinite under hydraulic, electric, and osmotic gradients. Am Assoc Pet Geol Bull 56(10):2022–2028

Ou CY, Chien SC, Chang HH (2009) Soil improvement using electroosmosis with the injection of chemical solutions: field tests. Can Geotech J 46(6):727–733. doi:10.1139/t09-012 CrossRef

Pamukcu S, Weeks A, Wittle JK (1997) Electrochemical extraction and stabilization of selected inorganic species in porous media. J Hazard Mater 55(1–3):305–318CrossRef

Perrin J (1904) Mecanisme de l’e1ectrisation de contact et solutions colloYdales. J Chem Phys 2:601–651

Pevzner ME (1978) Control of rock deformations in quarries [in Russian]. Paper presented at the Nedra, Moscow

Pevzner ME, Valer’yanova LI, Belen’kii PG (1971) Electro-chemical stabilization of soils during rock excavation. Paper presented at the 8th all-union conference on soil stabilization and strengthening [in Russian], Leningrad

Pugh RS (2002) Some observations on the influence of recent climate change on the subsidence of shallow foundations. Proc Inst Civil Eng Geotech Eng 155(1):23–25

Quincke G (1861) Ueber die fortfuhrung materieller theilchen durch strmende electricitat. Ann Phys 113:513–598CrossRef

Reddy KR, Urbanek A, Khodadoust AP (2006) Electroosmotic dewatering of dredged sediments: bench-scale investigation. J Environ Manage 78(2):200–208. doi:10.1016/j.jenvman.2005.04.018 CrossRef

Reuss FF (1809) Memoires de la societe imperiale des naturalists de Moscow, vol 2, pp 327–337

Rhoades JD, Ingvalson RD (1971) Determining salinity in field soils with soil resistance measurement. Soil Sci Soc Am J 35:54–60CrossRef

Rittirong A, Shang J, Mohamedelhassan E, Ismail M, Randolph M (2008) Effects of electrode configuration on electrokinetic stabilization for caisson anchors in calcareous sand. J Geotech Geoenviron Eng 134(3):352–365. doi:10.1061/(ASCE)1090-0241(2008)134:3(352) CrossRef

Rozas F, Castellote M (2012) Electrokinetic remediation of dredged sediments polluted with heavy metals with different enhancing electrolytes. Electrochim Acta 86:102–109. doi:10.1016/j.electacta.2012.03.068 CrossRef

Sah JG, Chen JY (1998) Study of the electrokinetic process on Cd and Pb spiked soils. J Hazard Mater 58(1–3):301–315. doi:10.1016/S0304-3894(97)00140-4 CrossRef

Schaad W (1958) Praktische Anwendung der Elektro-osmose im Gebiet des Grundbaues. Bautechnik 35:6–11

Schaad W, Haefeli R (1947) Electrokinetic phenomena and their application in soil mechanics. Schweizerisehe Bauzeitung 65, 216–217, 223–226, 235–238

Segall BA, Bruell CJ (1992) Electroosmotic contaminant-removal processes. J Environ Eng Asce 118(1):84–100. doi:10.1061/(asce)0733-9372(1992)118:1(84) CrossRef

Shang JQ (1997) Electrokinetic sedimentation: a theoretical and experimental study. Can Geotech J 34(2):305–314CrossRef

Shang JQ (1998) Electokinetic dewatering of clay slurries as engineered soil covers. Can Geotech J 34(1):78–86. doi:10.1139/t96-083 CrossRef

Shang JQ, Dunlap WA (1996) Improvement of soft clays by high-voltage electrokinetics. J Geotech Eng ASCE 122(4):274–280CrossRef

Shang JQ, Mohamedelhassan E, Ismail MA (2004) Electrochemical cementation of offshore calcareous soil. Can Geotech J 41(5):877–893CrossRef

Smoluchowski M (1921) Elektrische endosmose und strömungsströme. Handbuch der Elektrizität und des Magnetismus 2:366–428

Sprute RH, Kelsh DJ (1975) Electrokinetic densification of hydraulic backfill—a field test. Dept. of the Interior, Bureau of Mines, Pittsburgh

Sprute RH, Kelsh DJ (1980) Dewatering fine particle suspensions with direct current. Paper presented at the international symposium of fine particle processing, Las Vegas

Terzaghi K, Peck RB, Mesri G (1996) Soil mechanics in engineering practice, 3rd edn. Wiley, New York

Veder C (1981) In: Hilbert R (ed) Landslides and their stabilization. Springer, New York

Wu W (2009) Theoretical model and numerical simulation of electro-osmotic consolidation on soft clay. Tsinghua University, Beijing

Yan S, Singh AN, Fu S, Liao C, Wang S, Li Y, Hu L (2012) A soil fauna index for assessing soil quality. Soil Biol Biochem 47:158–165. doi:10.1016/j.soilbio.2011.11.014 CrossRef

Yang M, Choi B, Park H, Hong W, Lee S, Park T (2010) Development of a glucose biosensor using advanced electrode modified by nanohybrid composing chemically modified graphene and ionic liquid. Electroanalysis 22(1223–1228). doi:10.1365/s10337-010-1670-2

Yuan C, Weng C-H (2003) Sludge dewatering by electrokinetic technique: effect of processing time and potential gradient. Adv Environ Res 7(3):727–732. doi:10.1016/S1093-0191(02)00030-8 CrossRef

Yukawa H, Yoshida H, Kobayashi K, Hakoda M (1976) Fundamental study on electroosmotic dawatering of sludge at constant electric current. J Chem Eng Jpn 9:402–407CrossRef

Yukselen-Aksoy Y, Reddy KR (2010) Effect of soil composition on electrokinetically enhanced persulfate oxidation of polychlorobiphenyls. Electrochim Acta 86:164–169CrossRef

Zhinkin GN, Kalganov VF (1980) Electro-chemical treatment of clayey soils in the beds of structures. Stroiizdat, Moscow

Title: An Overview of Electrokinetic Consolidation of Soils
Authors: Mona Malekzadeh
Julie Lovisa
Nagaratnam Sivakugan
Publication date: 14-03-2016
Publisher: Springer International Publishing
Published in: Geotechnical and Geological Engineering / Issue 3/2016
Print ISSN: 0960-3182
Electronic ISSN: 1573-1529
DOI: https://doi.org/10.1007/s10706-016-0002-1

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