Empirical formulae for efficiency of DOM removal by adsorption determined on the basis of bench-scale results

• Autorzy: Szlachta M , Adamski W
• Języki publikacji: EN

Abstrakty

EN

Słowa kluczowe

EN

dissolved organic matter; adsorption process; natural water; powdered activated carbon; coagulation; mathematical modelling; water treatment

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2009
• Tom: 18
• Numer: 3
• Opis fizyczny: p.481-486,fig.,ref

Twórcy

autor

Szlachta M

• Wroclaw University of Technology, Institute of Environmental Protection Engineering, Wybrzeze S. Wyspianskiego 27, 50-370 Wroclaw, Poland

autor

Adamski W

• Wroclaw University of Technology, Institute of Environmental Protection Engineering, Wybrzeze S. Wyspianskiego 27, 50-370 Wroclaw, Poland

Bibliografia

• 1. VAN DER BRUGGEN B., VANDECASTEELE C. Removal of pollutants from surface water and groundwater by nanofiltration: overview of possible applications in the drinking water industry. Environmental Pollution, 122 (3), 435, 2003.
• 2. CRITTENDEN J.C., HAND D.W., TRUSSELL R.R. Water Treatment: Principles and Design. Wiley, John & Sons, 2005.
• 3. THURMAN E.M. Organic Geochemistry of Natural Waters. Nijhoff/Junk Publishers, Boston, 1985.
• 4. KIM H.-C.,YU M.-J. Characterization of natural organic matter in conventional water treatment processes for selection of treatment processes focused on DBPs control. Water Research, 39 (19), 4779, 2005.
• 5. MATILAINEN A., LINDQVIST N., KORHONEN S., TUHKANEN T. Removal of NOM in the different stages of the water treatment process. Environment International, 28 (6), 457, 2002.
• 6. KASTL G., SATHASIVAN A., FISHER I., VAN LEEUWEN J. Modeling DOC Removal by Enhanced Coagulation. Journal of American Water Works Association, 96 (2), 79, 2004.
• 7. FABRIS R., CHOW C.W.K., DRIKAS M. Practical application of a combined treatment process for removal of recalcitrant NOM – alum and PAC. Water Science and Technology: Water Supply, 4 (4), 89, 2004.
• 8. PELEKANI C., SNOEYINK V.L. Competitive adsorption in natural water: role of activated carbon pore size. Water Research, 33 (5), 1209, 1999.
• 9. NEWCOMBE G., DRIKAS M., HAYES R. Influence of characterised natural organic material on activated carbon adsorption: II. Effect on pore volume distribution and adsorption of 2-methylisoborneol. Water Research, 31 (5), 1065, 1997.
• 10. ANSARI KHALKHALI R., OMIDVARI R. Adsorption of Mercuric Ion from Aqueous Solutions Using Activated Carbon. Polish Journal of Environmental Studies, 14 (2), 185, 2005.
• 11. NORIT DATASHEET: Manufacturer’s Specification for Powdered Activated Carbon Norit SA Super.
• 12. SZLACHTA M. Analysis of the phenomena involved in a coagulation process enhanced with powdered activated carbon. PhD thesis, Wrocław University of Technology, Wrocław, Poland, 2007 [In Polish].
• 13. SZALCHTA M., ADAMSKI W. Mathematical model of PAC-adsorption and its application in water technology. Environment Protection Engineering, 34 (2), 5, 2008.
• 14. ADAMSKI W. Modelling of water treatment systems. Polish Scientific Publishers PWN, Warszawa, 2002 [In Polish].
• 15. SHMIDT J.L., PIMENOV A.V., LIEBERMAN A. I., CHEH H. Y. Kinetics of Adsorption with Granular, Powdered, and Fibrous Activated Carbon. Separation Science and Technology, 32 (13), 2105, 1997.