| 115 - 115 |
Scientific Advances and Innovative Applications in Electra kinetic Remediation Preface
Yang GCC |
| 116 - 123 |
Research and field experiences on electrokinetic remediation in South Korea
Kim BK, Baek K, Ko SH, Yang JW |
| 124 - 132 |
Milestone developments, myths, and future directions of electrokinetic remediation
Yeung AT |
| 133 - 138 |
Electrically induced pore pressures in high salt content clay slurry
Muraoka T, Ghazanfari E, Shrestha RA, Pamukcu S |
| 139 - 143 |
Electrokinetic remediation with high frequency sinusoidal electric fields
Rojo A, Hansen HK, Agramonte M |
| 144 - 150 |
The development of precipitation-filtering technology for uranium electrokinetic leachate
Kim GN, Shon DB, Park HM, Choi WK, Lee KW |
| 151 - 156 |
Feasibility study of the use of different extractant agents in the remediation of a mercury contaminated soil from Almaden
Subires-Munoz JD, Garcia-Rubio A, Vereda-Alonso C, Gomez-Lahoz C, Rodriguez-Maroto JM, Garcia-Herruzo F, Paz-Garcia JM |
| 157 - 163 |
Effect of ammonia as a complexing agent on electrokinetic remediation of copper-contaminated soil
Chen JL, Yang SF, Wu CC, Ton S |
| 164 - 169 |
Electrokinetic extraction of heavy metals from dredged marine sediment
Kim KJ, Kim DH, Yoo JC, Baek K |
| 170 - 176 |
Electrolyte conditioning for electrokinetic remediation of As, Cu, and Pb-contaminated soil
Ryu BG, Park GY, Yang JW, Baek K |
| 177 - 182 |
Dewatering of a biological industrial sludge by electrokinetics-assisted filter press
Yang GCC, Chen MC, Yeh CF |
| 183 - 192 |
Modeling of electrokinetic processes by finite element integration of the Nernst-Planck-Poisson system of equations
Paz-Garcia JM, Johannesson B, Ottosen LM, Ribeiro AB, Rodriguez-Maroto JM |
| 193 - 203 |
Removal of organic contaminants from soils by an electrokinetic process: The case of molinate and bentazone. Experimental and modeling
Ribeiro AB, Mateus EP, Rodriguez-Maroto JM |
| 204 - 207 |
A new electrochemical rehabilitation method for reinforced concrete employing the DFRCC anode system
Ueda T, Kameda T, Nanasawa A |
| 208 - 215 |
Aluminum drinking water treatment residuals (Al-WTRs) as an entrapping zone for lead in soil by electrokinetic remediation
Putra RS, Tanaka S |
| 216 - 220 |
Electrochemical removal of MTBE from water using the iridium dioxide coated electrode
Wu TN |
| 221 - 229 |
Removal of PAHs from contaminated clayey soil by means of electro-osmosis
Lima AT, Kleingeld PJ, Heister K, Loch JPG |
| 230 - 237 |
Electrokinetic-enhanced transport of lactate-modified nanoscale iron particles for degradation of dinitrotoluene in clayey soils
Reddy KR, Darko-Kagya K, Cameselle C |
| 238 - 245 |
Regeneration of spent carbon nanotube by electrokinetic process with binary metallic oxide electrodes of MnO2/Ti RuO2/Ti, and PbO2/Ti
Yuan C, Dai YD, Hung CH |
| 246 - 253 |
Effects of electrokinetic-assisted phytoremediation of a multiple-metal contaminated soil on soil metal bioavailability and uptake by Indian mustard
Cang L, Wang QY, Zhou DM, Xu H |
| 254 - 263 |
Pilot-scale study on in situ electrokinetic removal of nitrate from greenhouse soil
Lee YJ, Choi JH, Lee HG, Ha TH, Bae JH |
| 264 - 271 |
Enhanced nano-Fe3O4/S2O82- oxidation of trichloroethylene in a clayey soil by electrokinetics
Yang GCC, Yeh CF |
| 272 - 277 |
Injection of nanoscale Fe3O4 slurry coupled with the electrokinetic process for remediation of NO3- in saturated soil: Remediation performance and reaction behavior
Yang GCC, Wu MY |
| 278 - 284 |
Integration of emulsified nanoiron injection with the electrokinetic process for remediation of trichloroethylene in saturated soil
Yang GCC, Chang YI |
| 285 - 290 |
Electrocoagulation of arsenic using iron nanoparticles to treat copper mineral processing wastewater
Nunez P, Hansen HK, Aguirre S, Maureira C |
