Acar, Y. B., and Alshawabkeh, A. N. (1993). Principles of electro-kinetic remediation. Environ. Sci. Technol. (27), 2638.
Acar, Y.B., Gale R. J., Alshawabkeh, A.N., Marks, R. E., Puppala, S., Bricka, M., and Parker, R. (1995). Electrokinetic remediation: Basics and technology status. Journal of Hazardous Materials. (40), 117-137.
Alam, N., Ahmad, S.R., Qadir, A., Ashraf, M.I., Lakhan, C. and Lakhan, V.C. (2015). Use of statistical and GIS techniques to assess and predict concentrations of heavy metals in soils of Lahore City, Pakistan. Environmental Monitoring and Assessment. (187), 636-646.
Alatabe, M. J. A. (2012). Removal of lead Ions from Industrial Waste water. Journal of Environmental Studies, 9, 1-7.
Alatabe, M. J.( 2018)a .Adsorption of Copper (II) Ions from Aqueous Solution onto Activated Carbon Prepared from Cane Papyrus. Pollution, 4(4): 649-662.
Hussein, A. A. and Alatabe, M.J. A.
868
Alatabe, M. J. A.(2018) b. A Novel Approach for Adsorption of Copper(II) Ions from Wastewater Using Cane Papyrus. International Journal of Integrated Engineering,10(1) ,96-102.
Alatabe, M. J. A. and Hussein A. A.(2017). Isotherm and Kinetics studies, Adsorption of Chromium(III)Ions from Wastewater Using Cane Papyrus. Themed Section: Engineering and Technology, 3, 2394-4099.
Alatabe, M. J. A. and Hussein A. A.(2018). Adsorption of Nickel Ions From Aqueous Solution Using Natural Clay. Al-Nahrain Journal for Engineering Sciences (NJES) 21(2), 223-229.
Baraud, F., Tellier, S.; and Astruc, M. (1997). Ion velocity in soil solution during electro-kinetic remediation. Journal of Hazardous Materials. (56), 2638-2647.
Baraud, F., Tellier, S. and Astruc, M. (1999). Temperature effect on ionic transport during soil electro-kinetic treatment at constant pH. Journal of Hazardous Materials. (64),263-281.
Caliman, F. A., Robu, B. M., Smaranda, C., Pavel, V. L. and Gavrilescu, M. (2011). Soil and groundwater cleanup: Benefits and limits of emerging technologies. Clean Techn. Environ. Policy. (13), 241-268
Cameselle, C., Chirakkara, R. A. and Reddy, K.R. (2013). Electrokinetic-enhanced phytoremediation of soils: Status and opportunities. Chemosphere. (93), 626- 636.Chung, H., and Lee, M. (2007). A new method for remedial treatment of contaminated clayey soils by electro-kinetic coupled with permeable reactive barriers. Electrochim. Acta., (52), 3427-3431.
De Battisti, A. (2007). Electrokinetic remediation methods of remediation of soils and ground waters (EREM 2005). Electrochim. Acta. (52), 3345-3348.
Elsayed-Ali, A., Abdel-Fattah, T.M. and Elsayed-Ali, H.E. (2009). Effect of initial soil pH on copper ion transport in an electro-kinetic cell. Proc. of the 4th IASME / WSEAS Int. Conf. on Energy and Environment (EE'09), 84-87.
Evanko, C.R., and Dzombak, D.A. (1997). Remediation of metals-contaminated soils and groundwater. Technology evaluation report, TE-97-01. Ground-Water Remediation Technologies Analysis Center, Pittsburgh University, EPA.
Faisal, A.A.H, and Hussein, A.A. (2015). An Acidic Injection Well Technique for Enhancement of the Removal of Copper from Contaminated Soil by Electrokinetic Remediation Process. Separation Science and Technology. (50), 2578–2586 Ghaderi, A. A., Abduli, M. A., Karbassi, A. R., Nasrabadi, T., & Khajeh, M. (2012). Evaluating the effects of fertilizers on bioavailable metallic pollution of soils, case study,of Sistan farms, Iran. International Journal of Environmental Research, 6 (2), 565-570.
Gomes, H.I., Dias-Ferreira,C., Ribeiro, A.B. (2012). Electrokinetic remediation of organochlorines in soil: Enhancement techniques and integration with other remediation technologies. Chemosphere. (87), 1077-1090.
Greičiūtė, K., and Vasarevičius, S. (2007). Decontamination of heavy-metal polluted soil by electro-kinetic remediation. GEOLOGIJA, (57), 55-62.
Hanay, Ö., Hasar, H., Koçer, N.N. and Ozdemir, O.(2009). Removal of Pb from sewage sludge by electrokinetics: Effect of pH and washing solution type. Environmental Technology. (30), 1177-1185.
Hansen, H.K., Rojo, A. and Ottosen, L.M. (2007). Electro-kinetic remediation of copper mine tailings implementing bipolar electrodes. Journal of Electrochimica. Acta., (52), 3355-3359.
Heidary-Monfared, S. (2011). Community garden heavy metals study. Supported by Environment Canada, Ecology action center, Nova Scotia Agricultural College, HALIEAX, and Nova Scotia Environmental Network.
Hu, B., Chen, S., Hu, J., Xia, F., Xu, J., Li, Y. and Shi, Z. (2017). Application of portable XRF and VNIR sensors for rapid assessment of soil heavy metal pollution. journal. pone.0172438.
Hassan, I., and Mohamedelhassan, E. (2012). Electrokinetic Remediation with Solar Power for a Homogeneous Soft Clay Contaminated with Copper. International Journal of Environmental Pollution and Remediation (IJEPR). (1), 67-74.
Kim, S. O., Moon, S. H. and Kim, K. W. (2001). Removal of heavy metals from soils using enhanced electro-kinetic soil processing. Water, Air, and Soil Pollution, (125), 259-272.
Kim, S. O., Kim, J. J., Yun, S. T., and Kim, K. W. (2003). Numerical and experimental studies on cadmium (II) transport in kaolinite clay under electrical fields. Water, Air, and Soil Pollution, (150), 135-162.
Kornilovich, B., Mishchuk, N., Abbruzzese, K., Pshinko, G., and Klishchenko, R. (2005). Enhanced electrokinetic remediation of metals-contaminated clay. Colloids and Surfaces A: Physicochem. Eng. Aspects. (265), 114-123.
Liu, R., Wang, M., Chen, W.P. and Peng, C. (2016). Spatial pattern of heavy metals accumulation risk in urban soils of Beijing and its influencing factors. Environmental Pollution. (210), 174-181.
Pollution, 5(4): 859-869, Autumn 2019
Pollution is licensed under a "Creative Commons Attribution 4.0 International (CC-BY 4.0)"
869
Nasrabadi, T., Bidhendi, G. N., Karbassi, A., & Mehrdadi, N. (2010). Evaluating the efficiency of sediment metal pollution indices in interpreting the pollution of Haraz River sediments, southern Caspian Sea basin. Environmental monitoring and assessment, 171(1-4), 395-410.
Ministry of the Environment (MoEn) under project supported by United Nations Environment Programme (UNEP), (2005) Assessment of Environmental (Hot Spots) in Iraq. Website: http://postconflict.unep.ch/publications/Iraq_ESA.pdf.
Ouhadi, V. R., Yong, R. N., Shariatmadari, N., Saeidijam, S., Goodarzi, A. R. and Safari-Zanjani, M. (2010). Impact of carbonate on the efficiency of heavy metal removal from kaolinite soil by the electro-kinetic soil remediation method. J. Hazard. Mater., (173), 87-94.
Page, M.M., and Page, C.L. (2002). Electroremediation of Contaminated Soils. Journal of Environmental Engineering (ASCE). (128), 208-219.
Puga, A.P., Abreu, C.A., Melo, L.C.A., Paz-Ferreiro, J. and Beesley, L. (2015). Cadmium , lead and zinc mobility and plant uptake in a mine soil amended with sugarcane straw biochar. Environmental Science and Pollution Research. (22), 17606-17614.
Rosestolato, D., Bagatin, R. and Ferro, S. (2015). Electrokinetic remediation of soils polluted by heavy metals (mercury in particular). Chemical Engineering Journal. (264), 16-23.
Saby, N.P.A., Thioulouse, J., Jolivet, C.C., RatieÂ, C., Boulonne, L. and Bispo, A. (2009). Multivariate analysis of the spatial patterns of 8 trace elements using the French soil monitoring network data. Science of the Total Environment. (407), 5644-5662.
Saeedi, M., Jamshidi, A., Shariatmadri, N. and Falamaki, A. (2009). An investigation on the efficiency of electro-kinetic coupled with carbon active barrier to remediate nickel contaminated clay. International Journal of Environmental Research. (3), 629-636.
Smith, L.A., Means, J.L., Chen, A., Alleman, B., Chapman, C.C., Tixier, J.S., Jr., Brauning, S.E., Gavaskar, A.R., and Royer, M.D. (1995). Remedial Options for Metals- Contaminated Sites, Lewis Publishers, Boca Raton, FL.
Srivastava, R.K., Tiwari, R.P. and Bala, R. P. (2007). Removal of cadmium using electro-kinetics – effect of enhancement agents. The First Sri Lankan Geotechnical society Int. Conf. on Soil and Rock Engineering, Colombo, Sir Lanka.
Virkutyte J., Sillanpaa, M., and Latostenmaa P. (2002). Electro-kinetic soil remediation: A critical overview. The Science of the Total Environment. (289), 97-121.
Yeung, A. T., Hsu, C., and Menon, R. M. (1997). Physicochemical soil-contaminant interactions during electrokinetic extraction. Journal of Hazardous Materials. (55), 221-137.
Yuan, C. and Chiang, T.-S. (2007). The mechanisms of arsenic removal from soil by electrokinetic process coupled with iron permeable reaction barrier. Chemosphere. (67), 1533-1542.
Yuan, S., Zheng, Z., Chen, J. and Lu, X. (2009). Use of solar cell in electrokinetic remediation of cadmium-contaminated soil. Journal of Hazardous Materials. (162), 1583-1587.
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