Water Freedom System

Survive Global Water Shortages

Get Instant Access

Abadzic SD, Ryan JN (2001) Particle release and permeability education in a natural zeolite

(clinoptilolite) and sand porous medium. Environ Sci Technol 35:4502-4508 Aislabie J, Foght J, Saul D (2000) Aromatic hydrocarbon-degrading bacteria from soil near Scott

Base, Antarctica. Polar Biol 23:183-188 Andersland OB, Wiggert DC, Davies SH (1996) Frozen soil subsurface barriers: Formation and ice erosion. J Contam Hydrol 23:133-147 Bailey SE, Olin TJ, Bricka RM, Adrian DD (1999) A review of potentially low-cost sorbents for heavy metals. Water Res 33:2469-2479 Baker MJ, Blowes DW, Ptacek CJ (1998) Laboratory development of permeable reactive mixtures for the removal of phosphorus from onsite wastewater disposal systems. Environ Sci Technol 32:2308-2316

Barnes DL, Filler DM (2003) Spill evaluation of petroleum contamination in freezing ground. Polar Rec 39:385-390

Bastiaens L, Dries J, Vos J, Simons Q, De Smet M, Diels L (2005) Comparison of different multi-barrier concepts designed for treatment of groundwater containing mixed pollutants. In: Boshoff GA, Bone BD (eds) Permeable reactive barriers. Proceedings of the international symposium held at Belfast, Northern Ireland, March 2004. IAHS Publication 298, pp 45-51 Benner SG, Blowes DW, Ptacek CJ (1997) A full-scale porous reactive wall for prevention of acid mine drainage. Ground Water Monit Remed 17:99-107 Benner SG, Blowes DW, Gould WD, Herbert Jr. RB, Ptacek CJ (1999) Geochemistry of a permeable reactive barrier for metals and acid mine drainage. Environ Sci Technol 33:2793-2799 Benner SG, Blowes DW, Molson JWH (2001) Modeling preferential flow in reactive barriers:

Implications for performance and design. Ground Water 39:371-379 Benson CH, Othman MA (1993) Hydraulic conductivity of compacted clay frozen and thawed in situ. J Geotech Eng 119:276-294 Biggar KW, Haidar S, Nahir M, Jarrett PM (1998) Site investigations of fuel spill migration into permafrost. J Cold Reg Eng 12:84-104

Blowes DW, Ptacek CJ, Benner SG, McRae CWT, Bennett TA, Puls RW (2000) Treatment of inorganic contaminants using permeable reactive barriers. J Contam Hydrol 45:123-137 Bowman RS (2003) Applications of surfactant-modified zeolites to environmental remediation.

Microporous Mesoporous Mater 61:43-56 Braddock JF, Ruth ML, Catterall H, Walworth JL, McCarthy KA (1997) Enhancement and inhibition of microbial activity in hydrocarbon-contaminated arctic soils: Implications for nutrient-amended bioremediation. Environ Sci Technol 31:2078-2084 Bulut Y, Tez Z (2007) Removal of heavy metals from aqueous solution by sawdust adsorption.

J Environ Sci 19:160-166 Chamberlain EJ, Gow AJ (1979) Effect of freezing and thawing on the permeability and structure of soils. Eng Geol 13:73-92 Cheng SF, Wu SC (2000) The enhancement methods for the degradation of TCE by zero-valent metals. Chemosphere 41:1263-1270 Christodoulatos C, Korfiatis GP, Pal N, Koutsospyros A (1996) In situ groundwater treatment in a trench bio-sparge system. Hazard Waste Hazard Mater 13:223-236 Chuvilin EM, Naletova NS, Miklyaeva EC, Kozlova EV (2001) Factors affecting spreadability and transportation of oil in regions of frozen ground. Polar Rec 37:229-238 Conca JL, Wright J (2006) An Apatite II permeable reactive barrier to remediate groundwater containing Zn, Pb and Cd. Appl Geochem 21:2188-2200 Conca J, Strietelmeier E, Lu N, Ware SD, Taylor TP, Kaszuba J, Wright J (2002) Treatability study of reactive materials to remediate groundwater contaminated with radionuclides, metals, and nitrates in a four-component permeable reactive barier. In: Naftz DL, Morrison SJ, Davis JA, Fuller CC (eds) Handbook of groundwater remediation using permeable reactive barriers. Applications to radionuclides, trace metals, and nutrients. Academic Press, Amsterdam, pp 221-252 Cravotta III CA, Watzlaf GR (2002) Design and performance of limestone drains to increase pH and remove metals from acidic mine drainage. In: Naftz DL, Morrison SJ, Davis JA, Fuller CC (eds) Handbook of groundwater remediation using permeable reactive barriers. Applications to radionuclides, trace metals, and nutrients. Academic Press, Amsterdam, pp 19-66 Daniel JA, Staricka JA (2000) Frozen soil impact on ground water-surface water interaction. J Am

Water Resources Assoc 36:151-160 de Argandoña VGR, Rey AR, Celorio C, del Río LMS, Calleja L, llavona J (1999) Characterization by computed X-ray tomography of the evolution of the pore structure of a dolomite rock during freeze-thaw cyclic tests. Phys Chem Earth A 24:633-637 Devlin JF, Katic D, Barker JF (2004) In situ sequenced bioremediation of mixed contaminants in groundwater. J Contam Hydrol 69:233-261 Eigenbrod KD (1996) Effects of cyclic freezing and thawing on volume changes and permeabilities of soft fine-grained soils. Can Geotech J 33:529-537 England EC (2006) Treatment of uranium-contaminated waters using organic-based permeable reactive barriers. Federal Facil Environ J 17:19-35 Ferguson SH, Franzmann PD, Revill AT, Snape I, Rayner JL (2003) The effects of nitrogen and water on mineralisation of hydrocarbons in diesel-contaminated terrestrial Antarctic soils. Cold Reg Sci Technol 37:197-212 Ferguson AS, Huang WE, Lawson KA, Doherty R, Gibert O, Dickson KW, Whiteley AS, Kulakov LA, Thompson IP, Kalin RM, Larkin MJ (2007) Microbial analysis of soil and groundwater from a gasworks site and comparison with a sequenced biological reactive barrier remediation process. J Appl Microbiol 102:1227-1238 Ferro-García MA, Rivera-Utrilla J, Rodríguez-Gordillo J, Bautista-Toledo I (1988) Adsorption of zinc, cadmium and copper on activated carbons obtained from agricultural by-products. Carbon 26:363-373

Finkel M, Bayer P (2005) Cost-effectiveness of in situ treatment of multiple contaminant mixtures in groundwater by means of sequenced units of zero valent iron and granular activated carbon. In: Boshoff GA, Bone BD (eds) Permeable reactive barriers. Proceedings of the international symposium held at Belfast, Northern Ireland, March 2004. IAHS Publication 298, pp 60-66

Fourie WJ, Barnes DL, Shur Y (2007) The formation of ice from the infiltration of water into a frozen coarse grained soil. Cold Reg Sci Technol 48:118-128 Fryar AE, Schwartz FW (1998) Hydraulic-conductivity reduction, reaction-front propagation, and preferential flow within a model reactive barrier. J Contam Hydrol 32:333-351 Fuller C, Bargar J, Davis J, Piana M (2002) Mechanisms of uranium interactions with hydroxyap-

atite: Implications for groundwater remediation. Environ Sci Technol 36:158-165 Gavaskar AR (1999) Design and construction techniques for permeable reactive barriers.

J Hazardous Mater 68:41-71 Gore DB, Snape I (2008) Freeze-thaw cycling, moisture and leaching from a Controlled Release

Nutrient source. Cold Reg Sci Technol 52:401-407 Gore DB, Heiden ES, Stevens G, Snape I, Nash G (2006) Grain size of GAC and untreated and modified granular clinoptilolite under freeze-thaw. Polar Rec 42:1-6 Gupta N, Fox TC (1999) Hydrogeologic modeling for permeable reactive barriers. J Hazardous Mater 68:19-39

Haggerty GM, Bowman RS (1994) Sorption of inorganic anions by organo-zeolites. Environ Sci Technol 28:452-458

Hornig G, Northcott K, Snape I, Stevens G (2008) Assessment of sorbent materials for treatment of hydrocarbon contaminated ground water in cold regions. Cold Reg Sci Technol 53:83-91

Jeen S-W, Mayer KU, Gillham RW, Blowes DW (2007) Reactive transport modeling of Trichloroethene treatment with declining reactivity of iron. Environ Sci Technol 41:1432-1438

Johns MM, Marshall WE, Toles CA (1998) Agricultural by-products as Granular Activated Carbons for adsorbing dissolved metals and organics. J Chem Technol Biotechnol 71:131-140

Johnson TL, Scherer MM, Tratnyek PG (1996) Kinetics of halogenated organic compound degradation by iron metal. Environ Sci Technol 30:2634-2640 Kalin RM (2004) Engineered passive bioreactive barriers: Risk-managing the legacy of industrial soil and groundwater pollution. Curr Opin Microbiol 7:227-238 Kamolpornwijit W, Liang L, West OR, Moline GR, Sullivan AB (2003) Preferential flow path development and its influence on long-term PRB performance: Column study. J Contam Hydrol 66:161-178

Komnitsas K, Bartzas G, Paspaliaris I (2004) Efficiency of limestone and red mud barriers:

Laboratory column studies. Miner Eng 17:183-194 Lai KCK, Lo IMC, Birkelund V, Kjeldsen P (2006) Field monitoring of a permeable reactive barrier for removal of chlorinated organics. J Environ Engineer-ASCE 132:199-210 Li D, Volterrani M, Christians NE, Minner DD, Magni S (2001) Freezing and thawing effects on sand-based media modified with soil amendments. Int Turfgrass Soc Res J 9:548-552 Li D, Christians N, Volterrani M, Minner D (2002) Freeze-thaw cycles and soil amendments. Golf Course Management, October 2002, 110-113. 10Freeze-thaw.pdf. Cited 20 December 2007 Li L, Benson CH, Lawson EM (2006) Modeling porosity reductions caused by mineral fouling in continuous-wall permeable reactive barriers. J Contam Hydrol 83:89-121 Lindsay T, Coulter K (2003) Management and remediation of hydrocarbon impacted sites in Northern Ontario's isolated communities. In: Nahir M, Biggar K, Cotta G (eds) ARCSACC Assessment and remediation of contaminated sites in Arctic and cold climates. Edmonton, Alberta, Canada, pp 313-3321 Mackenzie PD, Horney DP, Sivavec TM (1999) Mineral precipitation and porosity losses in granular iron columns. J Hazard Mater 68:1-17 Margesin R, Schinner F (2001) Bioremediation (natural attenuation and biostimulation) of diesel oil contaminated soils in an alpine glacier skiing area. Appl Environ Microbiol 67:3127-3133 Martin WA, Larson SL, Felt DR, Wright J, Griggs CS, Thompson M, Conca JL, Nestler CC (2008) The effect of organics on lead sorption onto Apatite II. Appl Geochem 23:34-43

McCauley CA, White DM, Lilly MR, Nyman DM (2002) A comparison of hydraulic conductivities, permeabilities and infiltration rates in frozen and unfrozen soils. Cold Reg Sci Technol 34:117-125

Meggyes T (2005) Construction methods of permeable reactive barriers. In: Roehl KE, Meggyes T, Simon F-G, Stewart DI (eds) Long-term performance of permeable reactive barriers. Elsevier, Amsterdam, pp 27-52 Mohn WW, Stewart GR (2000) Limiting factors for hydrocarbon biodegradation at low temperature in Arctic soils. Soil Biol Biochem 32:1161-1172 Mu Y, Yu H-Q, Zheng J-C, Zhang S-J, Sheng G-P (2004) Reductive degradation of nitrobenzene in aqueous solution by zero-valent iron. Chemosphere 54:789-794 Naftz DL, Morrison SJ, Davis JA, Fuller CC (eds) (2002) Handbook of groundwater remediation using permeable reactive barriers. Applications to radionuclides, trace metals, and nutrients. Academic Press, Amsterdam Oberdorfer JA, Peterson FL (1985) Waste-water injection: Geochemical and biogeochemical clogging processes. Ground Water 23:753-761 Okwi GJ, Thomson NR, Gillham RW (2005) The impact of Permanganate on the ability of granular iron to degrade Trichloroethene. Ground Water Monitor Remed 25:123-128 Ostroumov V, Hoover R, Ostroumova N, Van Vliet-Lanoe B, Siegert Ch, Sorokovikov V (2001) Redistribution of soluble components during ice segregation in freezing ground. Cold Reg Sci Technol 32:175-182

Ouki SK, Kavannagh M (1997) Performance of natural zeolites for the treatment of mixed metal-

contaminated effluents. Waste Manage Res 15:383-394 Painter BDM (2004) Reactive Barriers: Hydraulic performance and design enhancements. Ground Water 42:609-617

Park JB, Lee SH, Lee JW, Lee CY (2002) Lab scale experiments for permeable reactive barriers against contaminated groundwater with ammonium and heavy metals using clinoptilolite (01-29B). J Hazard Mater 95:65-79 Poland JS, Mitchell S, Rutter A (2001) Remediation of former military bases in the Canadian

Arctic. Cold Reg Sci Technol 32:93-105 Poland JS, Riddle MJ, Zeeb BA (2003) Contaminants in the Arctic and Antarctic: A comparison of sources, impacts, and remediation options. Polar Rec 39:369-383 Puls RW, Paul CJ, Powell RM (1999) The application of in situ permeable reactive (zero-valent iron) barrier technology for the remediation of chromate-contaminated groundwater: A field test. Appl Geochem 14:989-1000 Ranck JM, Bowman RS, Weeber JL, Katz LE, Sullivan EJ (2005) BTEX removal from produced water using surfactant-modified zeolite. J Environ Eng 131:434-442 Rectanus HV, Widdowson MA, Chapelle FH, Kelly CA, Novak JT (2007) Investigation of reductive dechlorination supported by natural organic carbon. Ground Water Monitor Remed 27:53-62

Rike AG, Haugen KB, B0rresen M, Engene B, Kolstad P (2003) In situ biodegradation of petroleum hydrocarbons in frozen arctic soils. Cold Reg Sci Technol 37:97-120 Roehl KE, Czurda K, Meggyes T, Simon F-G, Stewart DI (2005a) Permeable reactive barriers. In: Roehl KE, Meggyes T, Simon F-G, Stewart DI (eds) Long-term performance of permeable reactive barriers. Elsevier, Amsterdam pp. 1-25 Roehl KE, Meggyes T, Simon F-G, Stewart DI (eds) (2005b) Long-term performance of permeable reactive barriers. Elsevier, Amsterdam SCAR Scientific Committee on Antarctic Research (2008) Antarctic Treaty.

treaty/. Cited 19 February 2008 Scherer MM, Richter S, Valentine RL, Alvarez PJJ (2000) Chemistry and microbiology of permeable reactive barriers for in situ groundwater clean up. Crit Rev Microbiol 26:221-264 Schipper LA, Barkle GF, Hadfield JC, Vojvodic-Vukovic M, Burgess CP (2004) Hydraulic constraints on the performance of a groundwater denitrification wall for nitrate removal from shallow groundwater. J Contam Hydrol 69:263-279

Seki K, Thullner M, Hanada J, Miyazaki T (2006) Moderate bioclogging leading to preferential flow paths in biobarriers. Ground Water Monitor Remed 26:68-76 Shukla A, Zhang Y-H, Dubeyc P, Margraved JL, Shukla SS (2002) The role of sawdust in the removal of unwanted materials from water. J Hazardous Mater 95:137-152 Simon F-G, Biermann V (2005) Behaviour of uranium in elemental iron and hydroxyapatite reactive barriers: Column experiments. In: Roehl KE, Meggyes T, Simon F-G, Stewart DI (eds) Long-term performance of permeable reactive barriers. Elsevier, Amsterdam, pp 77-103 Snape I, Morris CE, Cole CM (2001a) The use of permeable reactive barriers to control contaminant dispersal during site remediation in Antarctica. Cold Reg Sci Technol 32:157-174 Snape I, Riddle MJ, Stark JS, Cole CM, King CK, Duquesne S, Gore DB (2001b) Management and remediation of contaminated sites at Casey Station, Antarctica. Polar Rec 37:199-214 Snape I, Gore DB, Cole CM, Riddle MJ (2002) Contaminant dispersal and mitigation at Casey Station: An example of how applied geoscience research can reduce environmental risks in Antarctica. R Soc N Z Bull 35:641-648 Soares MI, Braester S, Belkin C, Abeliovich A (1991) Denitrification in laboratory sand columns:

Carbon regime, gas accumulation and hydraulic properties. Water Res 25:325-332 Starr R, Cherry JA (1994) In situ remediation of contaminated groundwater: The funnel-and-gate system. Ground Water 32:465-476 Thullner M, Schroth MH, Zeyer J, Kinzelbach W (2004) Modeling of a microbial growth experiment with bioclogging in a two-dimensional saturated porous media flow field. J Contam Hydrol 70:37-62

Torrance JK, Elliot T, Martin R, Heck RJ (2008) X-ray computed tomography of frozen soil. Cold

Reg Sci Technol 53:75-82 Tratnyek PG, Johnson TL, Scherer MM, Eykholt GR (1997) Remediating ground water with zero-valent metals: Chemical considerations in barrier design. Ground Water Monitor Remed 17:108-114

Tripathi S, Govil PK, Sorlie JE (2004) Permeable reactive barriers technology: Laboratory treata-bility test of reactive medias. In: Govil PK (ed) Proceedings of International Conference on "Soil and Groundwater Contamination: Risk Assessment and Remedial Measures." ENVIROINDIA 2004. National Geophysical Research Institute, Hyderabad, pp 75-83 Turner BD, Binning PJ, Sloan SW (2008) A calcite permeable reactive barrier for the remediation of Fluoride from spent potliner (SPL) contaminated groundwater. J Contam Hydrol 95:110-120

Vogan JL, Focht RM, Clark DK, Graham SL (1999) Performance evaluation of a permeable reactive barrier for remediation of dissolved chlorinated solvents in groundwater. J Hazard Mater 68:97-108

Walworth JL, Woolard CR, Braddock JF, Reynolds CM (1997) Enhancement and inhibition of soil petroleum biodegradation through the use of fertilizer nitrogen: An approach to determining optimum levels. J Soil Contam 6:465-480 Walworth J, Braddock J, Woolard C (2001) Nutrient and temperature interactions in bioremedia-

tion of cryic soils. Cold Reg Sci Technol 32:85-91 Walworth J, Pond A, Snape I, Rayner J, Ferguson S, Harvey P (2007) Nitrogen requirements for maximizing petroleum bioremediation in a sub-Antarctic soil. Cold Reg Sci Technol 48:84-91

White TL, Coutard J-P (1999) Modification of silt microstructure by hydrocarbon contamination in freezing ground. Polar Rec 35:41-50 White C, Sayer J, Gadd G (1997) Microbial solubilization and immobilization of toxic metals: Key biogeochemical processes for treatment of contamination. FEMS Microbiol Rev 20:503-516

Wiggert DC, Andersland OB, Davies SH (1997) Movement of liquid contaminants in partially saturated frozen granular soils. Cold Reg Sci Technol 25:111-117 Wilkin RT, Puls RW, Sewell GW (2002) Long-term performance of permeable reactive barriers using zero-valent iron: Geochemical and microbiological effects. Ground Water 41:493-503

Williams RL, Mayer KU, Amos RT, Blowes DW, Ptacek CJ, Bain JG (2007) Using dissolved gas analysis to investigate the performance of an organic carbon permeable reactive barrier for the treatment of mine drainage. Appl Geochem 22:90-108 Woinarski AZ, Snape I, Stevens GW, Stark SC (2003) The effects of cold temperature on copper ion exchange by natural zeolite for us in a permeable reactive barrier in Antarctica. Cold Reg Sci Technol 37:159-168

Woinarski AZ, Stevens GW, Snape I (2006) A natural zeolite permeable reactive barrier to treat heavy-metal contaminated waters in Antarctica. Trans IChemE, Part B, Process Saf Environ Protect 84(B2):109-116

Wolfe SM, Barnes DL, Shur Y, Filler D (2003) Two-dimensional movement of immiscible fluids through frozen soil. In: Nahir M, Biggar K, Cotta G (eds) Proceedings of 3rd Biennial Workshop on Assessment and Remediation of Contaminated Sites in Arctic and Cold Climates, Edmonton, Alberta, Canada, pp 171-174 Zamzow MJ, Murphy JE (1992) Removal of metal cations from water using zeolites. Separ Sci Technol 27:1969-1984

Was this article helpful?

0 0

Post a comment