Improving on SUVA254 using fluorescence-PARAFAC analysis and asymmetric flow-field flow fractionation for assessing disinfection byproduct formation and control

Water Research

Volumn 46, Issue 9, 2012, Pages 2927-2936

  Pifer, Ashley D ^a   Fairey, Julian L ^a  

^a University of Arkansas   (United States)

Author keywords

Chloroform; Dissolved organic matter; Drinking water; Enhanced coagulation; PH effects

Indexed keywords

BIOGEOCHEMISTRY; CHLORINE COMPOUNDS; COAGULATION; DISINFECTION; FLOW FIELDS; FLUORESCENCE; FUMIGATION; LIQUID CHROMATOGRAPHY; ORGANIC COMPOUNDS; PH EFFECTS; PHYSICOCHEMICAL PROPERTIES; POTABLE WATER;

ASYMMETRIC-FLOW FIELD FLOW FRACTIONATIONS; DISINFECTION BY-PRODUCT; DISINFECTION BYPRODUCTS; DISSOLVED ORGANIC MATTERS; ENHANCED COAGULATION; FORMATION POTENTIAL; LINEAR CORRELATION; MAXIMUM INTENSITIES;

FLUOROPHORES;

CHLORINE; CHLOROFORM; DISINFECTANT AGENT; DISSOLVED ORGANIC MATTER;

ASSESSMENT METHOD; ASYMMETRY; CHLORINE; CHLOROFORM; COAGULATION; DISINFECTION; DISSOLVED ORGANIC CARBON; DRINKING WATER; FLUORESCENCE; FRACTIONATION; HUMIC SUBSTANCE; MEASUREMENT METHOD; PH; PHYSICOCHEMICAL PROPERTY; PROTEIN;

ARTICLE; CHLORINATION; DISINFECTION; FLOW MEASUREMENT; FLUORESCENCE ANALYSIS; FLUORESCENCE PARALLEL FACTOR ANALYSIS; FRACTIONATION; METABOLITE; PH; PRIORITY JOURNAL; WATER QUALITY;

EID: 84860439879     PISSN: 00431354     EISSN: 18792448     Source Type: Journal    
DOI: 10.1016/j.watres.2012.03.002     Document Type: Article

References (34)

1. Amirtharajah A. Coagulation: rejuvenation for a classical process. Water Engineering & Management 1990, 137(12):25.
2. Andersen C.M., Bro R. Practical aspects of PARAFAC modeling of fluorescence excitation-emission data. Journal of Chemometrics 2003, 17(4):200-215.
3. Arora H., LeChevallier M.W., Dixon K.L. DBP occurrence survey. Journal of American Water Works Association 1997, 89(6):60-68.
4. Ates N., Kitis M., Yetis U. Formation of chlorination by-products in waters with low SUVA-correlations with SUVA and differential UV spectroscopy. Water Research 2007, 41(18):4139-4148.
5. Cantor K.P., Lynch C.F., Hildesheim M.E., Dosemeci M., Lubin J., Alavanja M., Craun G. Drinking water source and chlorination byproducts I. Risk of bladder cancer. Epidemiology 1998, 9(1):21-28.
6. Chow C.W.K., van Leeuwen J.A., Fabris R., Drikas M. Optimised coagulation using aluminium sulfate for the removal of dissolved organic carbon. Desalination 2009, 245(1-3):120-134.
7. Coble P.G. Characterization of marine and terrestrial DOM in seawater using excitation emission matrix spectroscopy. Marine Chemistry 1996, 51(4):325-346.
8. Coble P.G., Green S.A., Blough N.V., Gagosian R.B. Characterization of dissolved organic matter in the Black Sea by fluorescence spectroscopy. Nature 1990, 348(6300):432-435.
9. Drikas M., Chow C.W.K., Cook D. The impact of recalcitrant organic character on disinfection stability, trihalomethane formation and bacterial regrowth: an evaluation of magnetic ion exchange resin (MIEX (R)) and alum coagulation. Journal of Water Supply Research and Technology-Aqua 2003, 52(7):475-487.
10. Dubnick A., Barker J., Sharp M., Wadham J., Lis G., Telling J., Fitzsimons S., Jackson M. Characterization of dissolved organic matter (DOM) from glacial environments using total fluorescence spectroscopy and parallel factor analysis. Annals of Glaciology 2010, 51(56):111-122.
11. Standard Methods for the Examination of Water & Wastewater 2005, American Public Health Association, Washington, DC. A.D. Eaton, L.S. Clesceri, E.W. Rice, A.E. Greenberg (Eds.).
12. Giddings J.C. Field-Flow fractionation: analysis of macromolecular, colloidal, and particulate materials. Science 1993, 260(5113):1456-1465.
13. Guéguen C., Cuss C.W. Characterization of aquatic dissolved organic matter by asymmetrical flow field-flow fractionation coupled to UV-Visible diode array and excitation emission matrix fluorescence. Journal of Chromatography A 2011, 1218(27):4188-4198.
14. Hall G.J., Clow K.E., Kenny J.E. Estuarial fingerprinting through multidimensional fluorescence and multivariate analysis. Environmental Science and Technology 2005, 39(19):7560-7567.
15. Hua G., Reckhow D.A. Characterization of disinfection byproduct precursors based on hydrophobicity and molecular size. Environmental Science and Technology 2007, 41(9):3309-3315.
16. Johnstone D.W., Sanchez N.P., Miller C.M. Parallel factor analysis of excitation-emission matrices to assess drinking water disinfection byproduct formation during a peak formation period. Environmental Engineering Science 2009, 26(10):1551-1559.
17. Kitis M., Karanfil T., Kilduff J.E., Wigton A. The reactivity of natural organic matter to disinfection byproducts formation and its relation to specific ultraviolet absorbance. Water Science and Technology 2001, 43(2):9-16.
18. Marhaba T.F., Lippincott R.L. Application of fluorescence technique for rapid identification of DOM fractions in source waters. Journal of Environmental Engineering-Asce 2000, 126(11):1039-1044.
19. Miller M.P., McKnight D.M. Comparison of seasonal changes in fluorescent dissolved organic matter among aquatic lake and stream sites in the Green Lakes Valley. Journal of Geophysical Research 2010, 115:G00F12.
20. Nieuwenhuijsen M.J., Toledano M.B., Eaton N.E., Fawell J., Elliott P. Chlorination disinfection byproducts in water and their association with adverse reproductive outcomes: a review. Occupational and Environmental Medicine 2000, 57(2):73-85.
21. NOAA Satellite and Information Service (2011).
22. Pifer A.D., Miskin D.R., Cousins S.L., Fairey J.L. Coupling asymmetric flow-field flow fractionation and fluorescence parallel factor analysis reveals stratification of dissolved organic matter in a drinking water reservoir. Journal of Chromatography A 2011, 1218(27):4167-4178.
23. Rook J.J. Haloforms in drinking water. Journal of American Water Works Association 1976, 68(3):168-172.
24. Rosario-Ortiz F.L., Snyder S.A., Suffet I.H. Characterization of dissolved organic matter in drinking water sources impacted by multiple tributaries. Water Research 2007, 41(18):4115-4128.
25. Schimpf M.E., Wahlund K.G. Asymmetrical flow field-flow fractionation as a method to study the behavior of humic acids in solution. Journal of Microcolumn Separations 1997, 9(7):535-543.
26. Sen S., Haggard B., Chaubey I., Brye K., Costello T., Matlock M. Sediment phosphorus release at Beaver Reservoir, Northwest Arkansas, USA, 2002-2003: a preliminary investigation. Water, Air, and Soil Pollution 2007, 179(1):67-77.
27. Stedmon C.A., Bro R. Characterizing dissolved organic matter fluorescence with parallel factor analysis: a tutorial. Limnology and Oceanography-Methods 2008, 6:572-579.
28. Suffet I.H., Brenner L., Silver B. Identification of 1,1,1-trichloroacetone (1,1,1-trichloropropanone) in two drinking waters: a known precursor in haloform reaction. Environmental Science and Technology 1976, 10(13):1273-1275.
29. Vuorio E., Vahala R., Rintala J., Laukkanen R. The evaluation of drinking water treatment performed with HPSEC. Environment International 1998, 24(5-6):617-623.
30. Wahman D.G. Cometabolism of Trihalomethanes by Nitrifying Biofilters under Drinking Water Treatment Plant Conditions 2006, Civil, Architectural, and Environmental Engineering, The University of Texas at Austin, Austin, Ph.D: 398.
31. Weishaar J.L., Aiken G.R., Bergamaschi B.A., Fram M.S., Fujii R., Mopper K. Evaluation of specific ultraviolet absorbance as an indicator of the chemical composition and reactivity of dissolved organic carbon. Environmental Science and Technology 2003, 37(20):4702-4708.
32. Yang Z., Gao B., Yue Q. Coagulation performance and residual aluminum speciation of Al2(SO4)3 and polyaluminum chloride (PAC) in Yellow River water treatment. Chemical Engineering Journal 2010, 165(1):122-132.
33. Yohannes G., Wiedmer S.K., Jussila M., Riekkola M.L. Fractionation of humic substances by asymmetrical flow field-flow fractionation. Chromatographia 2005, 61(7):359-364.
34. Zhang Y., Griffin A., Edwards M. Nitrification in premise plumbing: role of phosphate, pH and pipe corrosion. Environmental Science and Technology 2008, 42(12):4280-4284.