| 1 - 4 |
13th International Symposium on Electrokinetic Remediation (2014) Foreword
Maroto JMR |
| 5 - 12 |
Numerical prediction of diffusion and electric field-induced iron nanoparticle transport
Gomes HI, Rodriguez-Maroto JM, Ribeiro AB, Pamukcu S, Dias-Ferreira C |
| 13 - 23 |
Numerical study of the effects of carbon felt electrode compression in all-vanadium redox flow batteries
Oh K, Won S, Ju H |
| 24 - 30 |
Electrochemical desalination of bricks - Experimental and modeling
Skibsted G, Ottosen LM, Jensen PE, Paz-Garcia JM |
| 31 - 38 |
Enhancement Of Electro-Osmotic Flow During The Electrokinetic Treatment Of A Contaminated Soil
Cameselle C |
| 39 - 47 |
Electrokinetics to Modify Strength Characteristics of Soft Clayey Soils: A Laboratory Based Investigation
Jayasekera S |
| 48 - 57 |
Comparison of 2-compartment, 3-compartment and stack designs for electrodialytic removal of heavy metals from harbour sediments
Pedersen KB, Ottosen LM, Jensen PE, Lejon T |
| 58 - 67 |
Solar powered electrokinetic remediation of Cu polluted soil using a novel anode configuration
Hassan I, Mohamedelhassan E, Yanful EK |
| 68 - 72 |
Electrokinetic Treatment Of Mercury-Polluted Soil Facilitated By Ethylenediaminetetraacetic Acid Coupled With A Reactor With A Permeable Reactive Barrier Of Iron To Recover Mercury (II) From Water
Robles I, Lozano MJ, Solis S, Hernandez G, Paz MV, Olvera MG, Bustos E |
| 73 - 81 |
Electrodialytic removal of heavy metals and chloride from municipal solid waste incineration fly ash and air pollution control residue in suspension - test of a new two compartment experimental cell
Kirkelund GM, Magro C, Guedes P, Jensen PE, Ribeiro AB, Ottosen LM |
| 82 - 89 |
The use of ethylenediaminetetraacetic acid as enhancing agent for the remediation of a lead polluted soil
Villen-Guzman M, Garcia-Rubio A, Paz-Garcia JM, Rodriguez-Maroto JM, Garcia-Herruzo F, Vereda-Alonso C, Gomez-Lahoz C |
| 90 - 99 |
Electrodialytic treatment of municipal wastewater and sludge for the removal of heavy metals and recovery of phosphorus
Ebbers B, Ottosen LM, Jensen PE |
| 100 - 108 |
Electrodialytic extraction of phosphorus from ash of low-temperature gasification of sewage sludge
Viader RP, Jensen PE, Ottosen LM, Ahrenfeldt J, Hauggaard-Nielsen H |
| 109 - 117 |
Potential of the electrodialytic process for emerging organic contaminants remediation and phosphorus separation from sewage sludge
Guedes P, Magro C, Couto N, Mosca A, Mateus EP, Ribeiro AB |
| 118 - 122 |
Electrochemical transformation of thichloroethylene in groundwater by Ni-containing cathodes
Rajic L, Fallahpour N, Oguzie E, Alshawabkeh A |
| 123 - 129 |
Influence of humic substances on electrochemical degradation of trichloroethylene in limestone aquifers
Rajic L, Fallahpour N, Nazari R, Alshawabkeh AN |
| 130 - 138 |
Removal behaviour of a thiazine, an azo and a triarylmethane dyes from polluted kaolinitic soil using electrokinetic remediation technology
Yusni EM, Tanaka S |
| 139 - 145 |
Scaling-up the acid-enhanced electrokinetic remediation of a real contaminated soil
Villen-Guzman M, Paz-Garcia JM, Rodriguez-Maroto JM, Garcia-Herruzo F, Amaya-Santos G, Gomez-Lahoz C, Vereda-Alonso C |
| 146 - 159 |
Electrokinetic remediation of metal-polluted marine sediments: experimental investigation for plant design
Iannelli R, Masi M, Ceccarini A, Ostuni MB, Lageman R, Muntoni A, Spiga D, Polettini A, Marini A, Pomi R |
| 160 - 166 |
Application of solar-cells in the electrokinetic remediation of As-contaminated soil
Jeon EK, Ryu SR, Baek K |
| 167 - 178 |
Electrodialytic upgrading of three different municipal solid waste incineration residue types with focus on Cr, Pb, Zn, Mn, Mo, Sb, Se, V, Cl and SO4
Jensen PE, Kirkelund GM, Pedersen KB, Dias-Ferreira C, Ottosen LM |
| 179 - 191 |
Electrokinetic Amendment in Phytoremediation of Mixed Contaminated Soil
Chirakkara RA, Reddy KR, Cameselle C |
| 192 - 199 |
Feasibility Of Coupling Permeable Bio-Barriers And Electrokinetics For The Treatment Of Diesel Hydrocarbons Polluted Soils
Ramirez EM, Jimenez CS, Camacho JV, Rodrigo MAR, Canizares P |
| 200 - 207 |
ELECTRODIALYTIC PROCESS OF NANOFILTRATION ONCENTRATES - PHOSPHORUS RECOVERY AND MICROCYSTINS REMOVAL
Couto N, Guedes P, Ferreira AR, Teixeira MR, Mateus EP, Ribeiro AB |
| 208 - 216 |
Electrodialytic remediation of fly ash from co-combustion of wood and straw
Chen W, Jensen PE, Ottosen LM, Kirkelund GM |
| 217 - 227 |
Integration of electrokinetic process and nano-Fe3O4/S2O82- oxidation process for remediation of phthalate esters in river sediment
Yang GCC, Chiu YH, Wang CL |
| 228 - 232 |
Electrochemical peroxidation using iron nanoparticles to remove arsenic from copper smelter wastewater
Gutierrez C, Hansen HK, Nunez P, Valdes E |
| 233 - 237 |
Decontamination of Soil Contaminated with Cesium using Electrokinetic-electrodialytic Method
Kim GN, Kim SS, Park UR, Moon JK |
| 238 - 247 |
A comparative study of species migration and diffusion mechanisms in all-vanadium redox flow batteries
Oh K, Won S, Ju H |
| 248 - 254 |
Selective Recovery of Dissolved Metals from Mine Drainage Using Electrochemical Reactions
Park SM, Shin SY, Yang JS, Ji SW, Baek K |
| 255 - 270 |
Electrokinetic Driven Low-Concentration Acid Improved Oil Recovery in Abu Dhabi Tight Carbonate Reservoirs
Ansari A, Haroun M, Rahman MM, Chilingar GV |
| 271 - 279 |
Impact of continuous and intermittent supply of electric field on the function and microbial community of wastewater treatment electro-bioreactors
Zeyoudi M, Altenaiji E, Ozer LY, Ahmed I, Yousef AF, Hasan SW |
| 280 - 287 |
Influence of the properties of granite and sandstone in the desalination process by electrokinetic technique
Feijoo J, Ottosen LM, Pozo-Antonio JS |
| 288 - 300 |
Chloride Electroremediation in reinforced structures: preliminary electrochemical tests to detect the steel repassivation during the treatment
Martinez I, Rozas F, Ramos-Cillan S, Gonzalez M, Castellote M |
