Application of POLLUTEv.6 program in the interpretation of contaminant transport in PRB

• Autorzy: Fronczyk J. , Garbulewski K.
• Języki publikacji: EN

Abstrakty

EN

High chemical concentration of contaminants in aquifers, with reached or exceeded threshold trigger values, can have negative effects on ecological systems and is liable to cause hazards to human health. Permeable reactive barriers (PRB) represent a promising technology for groundwater protection. The zeolite-sand mixture is proposed as a reactive material filling PRB in the neighborhood of municipal and industrial waste disposal sites. To understand the processes which occur during the contact of reactive materials and polluted groundwater, in situ and laboratory tests are usually recommended. The tests of contaminant migration through the attenuation zone can be interpreted using the POLLUTEv.6 program, which solves one-dimensional advection-dispersion equation. In this study hydraulic (Darcy velocity and dispersion coefficient) and sorption parameters (partitioning coefficient) were determined for zeolite-sand mixtures.

Słowa kluczowe

EN

contaminants migration; zeolite-sand mixture; breakthrough curve

• Wydawca: Wydawnictwo Politechniki Poznańskiej
• Czasopismo: Foundations of Civil and Environmental Engineering
• Rocznik: 2008
• Tom: No. 12
• Strony: 21--32
• Opis fizyczny: Bibliogr. 13 poz.

Twórcy

autor

Fronczyk J.

autor

Garbulewski K.

• Warsaw University of Life Sciences, Faculty of Engineering and Environmental Science, Department of Geotechnical Engineering Tel.: 0048-22-59-35-207; fax: 0048-22-59-35-203,

Bibliografia

• 1.Roehl K.E., Huttenloch P., Czurda K.: Permeable sorption barriers for insitu remediation of polluted groundwater - reactive materials and reaction mechanisms, in: Green 3, The Exploitation of Natural Resources and the Consequences, London, Thomas Telford Publishing, 2001, 466-473.
• 2.Piastowski K., Anielak A.M.: Zeolity naturalne i ich zastosowanie w oczyszczaniu wody i ścieków, Ekologia i Technika, VIII, 2 (2000) 31-41.
• 3.Anielak A.M., Majewski A.: Modyfikowane zeolity naturalne w procesie oczyszczania wody powierzchniowej, Gaz, Woda i Technika Sanitarna, 9 (2004) 302-306.
• 4.Mier M.V., Callejas R.L., Gehr R., Cisneros B.E.J., Alvarez P.J.J.: Heavy metal removal with Mexican clinoptilolite multi-component ionic exchange, Water Research, 35, 2 (2001) 373-378.
• 5.Ouki S.K., Kavannahg M.: Performance of natural zeolites for the treatment of -mixed metal-contaminated effluents, Waste Management & Research, 15(1997)383-394.
• 6.Maryuk O., Gładysz-Płaska A., Rudaś M., Majdan M.: Adsorpcja jonów chromu(VI) na powierzchniowo modyfikowanym klinoptylolicie, Przemysł Chemiczny, 84, 5 (2005) 360-363.
• 7.Bowman R.S.: Applications of surfactant-modified zeolites to environmental remediation, Microporous and Mesoporous Materials, 61, 1-3 (2003) 43-56.
• 8.Upmeier M: Optimierung mineralischer Deponieabdichtungen durch natürliche Zeolithe und Aktivkohle, Karlsruhe 1996.
• 9.Fronczyk J.: Przepuszczalne bariery sorpcyjne - właściwości materiału aktywnego, Przegląd Naukowy Inżynieria i Kształtowanie Środowiska, 1, 33 (2006) 85 - 94.
• 10.Fronczyk J., Garbulewski K., Lech M.: Hydraulic, sorption and resistivity characteristics of zeolite-sand mixtures for PRBs, in: 5th ICEG Environmental Geotechnic, London, Thomas Telford 2006.
• 11.Rowe R. K., Broker J. R., Fräser M. J.: POLLUTEv.6 and POLLUTE-GUI, User’s guide, Ontario, GAEA Environmental Engineering Ltd. 1994.
• 12.Rowe R. K., Quigley R. M., Broker J. R.: Clayey barrier systems for waste disposal facilities, London, E&FN Spon 1995.
• 13.Fetter C.W.: Contaminant Hydogeology NJ, Prentice Hall 1999.