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2017 | Vol. 43, nr 3 | 239--246
Tytuł artykułu

Effects of UV irradiation on biodegradability of natural organic matter

Autorzy
Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Changes in concentration of total organic carbon in natural organic matter during UV irradiation have been examined, and especially its biodegradable fraction. The studies have shown better effectiveness of elimination of organic substances for highly contaminated water than that obtained for pre-Treated water. UV irradiation assured the decrease of all fractions of total organic carbon, which indicates the domination of mineralization over the transformation of multi-molecular substances into simpler ones. This means that organic substances were mineralised during UV irradiation. The effective elimination of non-biodegradable dissolved organic substances absorbing UV radiation ensures a very large decrease in potential of disinfection of by-products.
Wydawca

Rocznik
Strony
239--246
Opis fizyczny
Bibliogr. 20 poz., tab., rys.
Twórcy
autor
  • Wrocław University of Science and Technology, Chair of Water and Sewage Treatment Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, malgorzata.wolska@pwr.edu.pl
Bibliografia
  • [1] CHOWDHURY S., Heterotrophic bacteria in drinking water distribution system. A review, Environ. Monit. Assess., 2012, 184 (10), 6087.
  • [2] MARSCHNER B., KALBITZ K., Controls of bioavailability and biodegradability of dissolved organic matter in soils, Geoderma, 2003, 113 (3), 211.
  • [3] LIN Y.L., CHIANG P.C., CHANG E.E., Removal of small trihalomethane precursors from aqueous solution by nanofiltration, J. Hazard. Mater., 2007, 146 (1), 20.
  • [4] KALAJDŽIĆ B., HABUDA-STANIĆ M., ROMIĆ Ž., KULEŠ M., Removal of natural organic matter from groundwater using Fenton’s process, Global Nest. J., 2013, 15, 13.
  • [5] CHEN B., WESTERHOFF P., Predicting disinfection by-product formation potential in water, Water Res., 2010, 44 (13), 3755.
  • [6] LIN Y.L., CHIANG P.C., CHANG E.E., Reduction of disinfection by-products precursors by nanofiltration process, J. Hazard Mater., 2006, 137 (1), 324.
  • [7] CHANDY J.P., ANGELS M.J., Determination of nutrients limiting biofilm formation and the subsequent impacts on disinfectant decay, Water Res., 2001, 35 (11), 2677.
  • [8] HALLAM N.B., WEST J.R., FORESTER C.F., SIMMS J., The potential for biofilm growth in water distribution systems, Water Res., 2001, 35 (17), 4063.
  • [9] CHIEN C.C., KAO C.M., DONG C.D., CHEN T.Y., CHEN J.Y., Effectiveness of AOC removal by advanced water treatment systems. A case study, Desalination, 2007, 202 (1), 318.
  • [10] LYON B.A., DOTSON A.D., LINDEN K.G., WEINBERG H.S., The effect of inorganic precursors on disinfection byproduct formation during UV-chlorine/chloramine drinking water treatment, Water Res., 2012, 46 (15), 4653.
  • [11] SERVAIS P., ANZIL A., VENTRESQUE C., Simple method for determination of biodegradable dissolved organic carbon in water, Appl. Environ. Microb., 1998, 55 (10), 2732.
  • [12] YANG X., SHEN Q.Q., GUO W.H., PENG J.F., LIANG Y.M., Precursors and nitrogen origins of trichloronitromethane and dichloroacetonitrile during chlorination/chloramination, Chemosphere, 2012, 88 (1), 25.
  • [13] MATILAINEN A., YEPSÄLAINEN M., SILLANPÄÄ M., Natural organic matter removal by coagulation during drinking water treatment. A review, Adv. Coll. Interfac., 2010, 159 (2),189.
  • [14] CORIN N., BACKLUND P., KULOVAARA M., Degradation products formed during UV-irradiation of humic waters, Chemosphere, 1996, 33 (2), 245. [15] ANDO N., MATSUI Y., KUROTOBI R., NAKANO Y., MATSUSHITA T., OHNO K., Comparison of natural organic matter adsorption capacities of super-powdered activated carbon and powdered activated carbon, Water Res., 2010, 44 (14), 4127.
  • [16] LEE S., CHO J., SHIN H., SON B., CHAE S., Investigation of NOM size, structure and functionality (SSF): impact on water treatment process with respect to disinfection by-products formation, J. Water Supp. Res. T, 2003, 52 (8), 555.
  • [17] IMOBERDORF G., MOHSENI M., Degradation of natural organic matter in surface water using vacuum-UV irradiation, J. Hazard Mater., 2011, 186 (1), 240.
  • [18] WANG W., WANG W., FAN Q., WANG Y., QIAO Z., WANG X., Effects of UV radiation on humic acid coagulation characteristicsin drinking water treatment processes, Chem. Eng. J., 2014, 256, 137.
  • [19] KULOVAARA M., Light-induced degradation of aquatic humic substances by simulated sunlight, Int. J. Environ. Anal. Chem., 1996, 62 (2), 85.
  • [20] PAUL A., DZIALLAS K., ZWIRNMANN E., GJESSING E.T., GROSSART H.P., UV irradiation of natural organic matter (NOM). Impact on organic carbon and bacteria, Aquat. Sci., 2012, 74 (3), 443.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-0ef2b51b-09ef-4e7b-9c1d-643b3f3e245a
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