References
References
- USEPA “A resource for MGP site characterization and remediation,” EPA/542‐R‐00–005 July 2000
- Harvey RG Polycyclic aromatic hydrocarbons; Chemistry and carcinogenicity, Cambridge University Press New York 1991
- Menzie , CA , Potocki , BB and Santodanato , J . (1992) . “Exposure to carcinogenic PAH's in the environment,” . Environmental Science and Technology , 26 (7) : 1278 – 1284 .
- Luthy , RG , Dzombak , DA , Peters , CA , Roy , SB , Ramaswami , A , Nakles , DV and Nott , BR . (1994) . “Remediating tar‐contaminated soils at manufactured gas plant sites,” . Environmental Science and Technology , 28 (6) : 266A – 276A .
- Connell DW Basic Concepts of Environmental Chemistry, Lewis Publishers New York 1997
- National Institute of Environmental Health Science (NIEHS) – National Toxicology Program – “Eighth Report on Carcinogens” (RoC) 1997
- National Research Council Innovations in Ground Water and Soil Cleanup, National Academy Press Washington DC 1997
- Fu , J and Luthy , RG . (1986) . “Effect of organic solvent on sorption of aromatic solutes onto soils,” . Journal of Environmental Engineering , 112 (2) : 346 – 367 .
- Ganeshalingam , S , Legge , RL and Anderson , WA . (1994) . “Surfactant‐enhanced leaching of polycyclic aromatic hydrocarbons from soil,” . Transactions – Institution of Chemical Engineers , 72 (B) : 247 – 251 .
- Roote DS “In‐situ flushing,” Technology Overview Report, TO‐97–02 Ground‐Water Remediation Technologies Analysis Center June 1997
- Saichek RE “Electrokinetically enhanced in‐situ flushing for HOC‐contaminated soils,” PhD thesis University of Illinois at Chicago Chicago Illinois 2001
- Eykholt , GR and Daniel , DE . (1994) . “Impact of system chemistry on electroosmosis in contaminated soil” . Journal of Geotechnical Engineering , 120 (5) : 797 – 815 .
- Yeung AT “Electrokinetic flow processes in porous media and their applications,” In: (M.Y. Corapciaglu, ed.) Advances in Porous Media M.Y. Elsevier Amsterdam 1994
- Acar , YB , Gale , RJ , Alshawabkeh , AN , Marks , RE , Puppula , S , Bricka , M and Parker , R . (1995) . “Electrokinetic remediation: Basics and technology status,” . Journal of Hazardous Materials , 40 : 117 – 137 .
- Bruell , CJ , Segall , BA and Walsh , MT . (1992) . “Electrokinetic removal of gasoline hydrocarbons and TCE from clay,” . Journal of Environmental Engineering , 118 (1) : 68 – 83 .
- Shapiro , AP and Probstein , RF . (1993) . “Removal of contaminants from saturated clay by electroosmosis,” . Environmental Science and Technology , 27 (2) : 283 – 291 .
- Li , A , Cheung , KA and Reddy , KR . (2000) . “Cosolvent‐enhanced electrokinetic remediation of soils contaminated with phenanthrene,” . Journal of Environmental Engineering , 126 (6) : 527 – 533 .
- Valsaraj KT Elements of Environmental Engineering; Thermodynamics and Kinetics, CRC Press LLC Boca Raton FL 2000
- Myers D Surfactant Science and Technology, VCH Publishers Inc. New York 1988
- Rosen MJ Surfactants and Interfacial Phenomena 2nd edn John Wiley and Sons New York 1989
- Sabatini DA Knox RC Harwell JH “Emerging technologies in surfactant‐enhanced subsurface remediation,” In: (D.A. Sabatini, R.C. Knox & J.H. Harwell, eds) Chapter 1 in Surfactant Enhanced Subsurface Remediation – Emerging Technologies ACS Symposium Series 594 American Chemical Society Washington DC 1995 pp. 177–190
- Johnston CT “Sorption of organic compounds on clay minerals: A surface functional group approach,” In: (B. Sahwney, ed.) CMS Workshop Lectures 8 Organic Pollutants in the Environment, The Clay Mineral Society Boulder CO 1996 pp. 2–44
- Fountain JC Waddell‐Sheets C Lagowski A Taylor C Frazier D Byrne M “Enhanced removal of dense non‐aqueous phase liquids using surfactants; Capabilities and limitations from field trials,” In: (D.A. Sabatini, R.C. Knox & J.H. Harwell, eds.) Chapter 13 in Surfactant Enhanced Subsurface Remediation – Emerging Technologies ACS Symposium Series 594 American Chemical Society Washington DC 1995 pp. 177–190
- Lowe DF Oubre CL Ward CH and others Surfactants and Cosolvents for NAPL Remediation: A Technology Practices Manual, Lewis Publishers Boca Raton FL 1999
- Staples , CA and Geiselmann , SJ . (1988) . “Cosolvent influences on organic solute retardation factors,” . Ground Water , 26 (2) : 192 – 198 .
- Jafvert CT “Surfactants and cosolvents,” Technology Evaluation Report, TE‐96–02 Ground‐Water Remediation Technologies Analysis Center December 1996
- Pamukcu S “Electrokinetic removal of coal tar constituents from contaminated soils,” Final Report, Electric Power Research Institute, EPRI TR‐103320, Project 2879–21 1994
- Taha MR “Micellar electrokinetic remediation of TNT from soil,” PhD thesis Dept. of Civil and Environmental Engineering, Louisiana State University and Agricultural and Mechanical College 1996
- Bourbonais KA Campeau GC MacClellan LK “Evaluating effectiveness of in‐situ flushing with surfactants,” In: (D.A. Sabatini, R.C. Knox & J.H. Harwell, eds.) Chapter 12 in Surfactant Enhanced Subsurface Remediation – Emerging Technologies ACS Symposium Series 594 American Chemical Society Washington DC 1995 pp. 161–176
- Edwards , DA , Luthy , RG and Liu , Z . (1991) . “Solubilization of polycyclic aromatic hydrocarbons in micellar nonionic surfactant solutions,” . Environmental Science and Technology , 25 (1) : 127 – 133 .
- Edwards , DA , Liu , Z and Luthy , RG . (1994) . “Experimental data and modeling for surfactant micelles, HOCs, and soil,” . Journal of Environmental Engineering , 120 (1) : 23 – 41 .
- Joshi , MM and Lee , S . (1996) . “Optimization of surfactant‐aided remediation of industrially contaminated soils,” . Energy Sources , 18 : 291 – 301 .
- Ko , S , Schlautman , MA and Carraway , ER . (1998) . “Effects of solution chemistry on the partitioning of phenanthrene to sorbed surfactants,” . Environmental Science and Technology , 32 (22) : 3542 – 3548 .
- Edwards , DA , Adeel , Z and Luthy , RG . (1994) . “Distribution of nonionic surfactant and phenanthrene in a sediment/aqueous system,” . Environmental Science and Technology , 28 (8) : 1550 – 1560 .
- Ko , S , Schlautman , MA and Carraway , ER . (1998) . “Partitioning of hydrophobic organic compounds to sorbed surfactants. 1. Experimental studies,” . Environmental Science and Technology , 32 (18) : 2769 – 2775 .
- Schwarzenbach RP Gschwend PM Imboden DM Environmental Organic Chemistry, John Wiley and Sons, Inc. New York 1993
- USEPA Test Methods for Evaluating Solid Waste Volume 1A: Laboratory Manual, Physical/Chemical Methods, SW‐846, 3rd edn Office of Solid Waste and Emergency Response Washington DC 1986
- Jafvert CT Wei C Van Hoof PL “A quantitative structure‐activity relationship for solubilization of nonpolar compounds by nonionic surfactant micelles,” In: (D.A. Sabatine, R.C. Knox & J.H. Harwell, eds) Chapter 3 in Surfactant Enhanced Subsurface Remediation – Emerging Technologies ACS Symposium Series 594 American Chemical Society Washington DC 1995 pp. 24–37
- Means , JC , Wood , SG , Hassett , JJ and Banwart , WL . (1980) . “Sorption of polynuclear aromatic hydrocarbons by sediments and soils,” . Environmental Science and Technology , 14 (12) : 1524 – 1531 .
- Banerjee , S and Yalkowski , SH . (1988) . “Cosolvent‐induced solubilization of hydrophobic compounds into water,” . Analytical Chemistry , 60 : 2153 – 2155 .