References
- Rook , J. J. 1974 . Formation of haloform during chlorination of natural water . Water Treatment Exam. , 23 : 234 – 243 .
- Chen , J. , Gu , B. , LeBoeuf , E. J. , Pan , H. and Dai , S. 2002 . Spectroscopic characterization of the structure and fuctional properties of natural organic matter fractions . Chemosphere , 48 ( 1 ) : 59 – 68 .
- Bruchet , A. , Rousseau , C. and Mallevialle , J. 1990 . Pyrolysis–GC/MS for investigating high-molecular weight THM precursors and other refractory organics . J. Amer. Water Works Asso , 82 ( 9 ) : 66 – 74 .
- White , D. M. , Garland , D. S. , Narr , J. and Woolard , C. R. 2003 . Natural organic matter and DBP formation potential in Alaskan water supplies . Water Res , 37 : 939 – 947 .
- Biber , M. V. , Gulacar , F. O. and Buffle , J. 1996 . Seasonal variations in principal groups of organic matter in a eutrophic lake using pyrolysis/GC/MS . Environ. Sci. Technol , 30 : 3501 – 3507 .
- Dignac , M. F. , Ginestet , P. , Rybacki , D. , Bruchet , A. and Urbain , V. 2000 . Scribe P. Fate of wastewater organic pollution during activated sludge treatment: nature of residual organic matter . Water Res , 34 ( 17 ) : 4185 – 4194 .
- Sirivedhin , T. and Gray , A. 2005 . Part I. Identifying anthropogenic markers in surface waters influenced by treated effluents: a tool in potable water reuse . Water Res , 39 : 1154 – 1164 .
- Musikavong , C. , Wattanachira , S. and Furumai , H. “ Chemical classes and prominent pyrolysis fragments of dissolved organic matter in wastewater treated by stabilization ponds ” . In Southeast Asian Water Environment 3 , 167 – 172 . London : International Water Association (IWA) . 2009
- Xue , S. , Zhao , Q. , Ma , A. , Li , F. , Wang , J. and Wei , L. 2011 . Comparison of dissolved organic matter fractions in a secondary effluent and natural water . Environ. Monitor. Assess , 180 : 371 – 383 .
- Nnadi , F. N. , Hernandez , M. and Fulkerson , M. 2004 . Evaluation of techniques for control of disinfection by-products: a pilot study . J. Environ. Sci. Health , 39 : 1573 – 1585 .
- Lou , J. C. , Tseng , W. B. , WU , M. C. , Han , J. Y. and Chen , B. H. 2012 . Removal of disinfection by-products in raw water using a biological powder-activated carbon system . J. Environ. Sci. Health , 47 : 1478 – 1485 .
- Suksaroj , C. , Rattanamanee , P. , Musikavong , C. and Wattanachira , S. 2009 . The determination of tryptophan and humic and fulvic acid-like substances reduction in raw water from U-Tapao Basin Thailand with alum coagulation . Water Pract. Technol , 4 ( 2 ) doi: 10.2166/2009.022
- Srimuang , K. , Suksaroj , C. , Suksaroj , T. and Musikavong , C. 2011 . Removal of dissolved organic matter by enhanced coagulation: a FTIR analysis . J. Thai Environ. Eng , 25 : 17 – 26 . (in Thai)
- Edzwald , J. K. 1993 . Coagulation in drinking water treatment: particles, organics and coagulants . Water Sci. Technol , 27 ( 11 ) : 21 – 35 .
- AWWA Research Foundation . Removal of DBPs precursors by enhanced coagulation and lime softening , Washington , DC : AWWA . 1999
- Volk , C. , Bell , K , Ibrahim , E. , Verges , D. , Amy , G. and Lechevallier , M. 2000 . Impact of enhanced and optimized coagulation on removal of organic matter and its biodegradation in drinking water . Water Res , 34 : 3247 – 3257 .
- Page , D. W. , Leeuwen , J. A.V. , Spark , K. M. , Drikas , M. and Withers , N. 2002 . Mulahy D.E. Effect of alum treatment on the trihalomethane formation and bacterial regrowth potential of natural and synthetic waters . Water Res , 36 : 4884 – 4892 .
- Ng , M. , Liana , A. E. , Liu , S. , Lin , M. , Chow , W. K. , Wang , D. , Drikas , M. and Amal , R. 2012 . Prepration and characterization of new-polyaluminium chloride-chitosan composite coagulant . Water Res , 46 : 4614 – 4620 .
- Gang , D. , Clevenger , T. E. and Banerji , S. K. 2005 . Effects of alum coagulation on speciation and distribution of trihalomethanes (THMs) and haloacetic acids (HAAs) . J. Environ. Sci. Health , 40 : 521 – 534 .
- Standard Methods for the Examination of Water and Wastewater 19th edition , Washington , DC : American Public Health Association/American Water Works Association/Water Environment Federation . , 1995
- Kanokkantapong , V. , Marhaba , T. F. , Panyapinyophol , B. and Pavasant , P. 2006 . FTIR evaluation of functional groups involved in formation of haloacetic acids during chlorination of raw water . J. Hazard. Mater , 136 ( 2 ) : 188 – 196 .
- Page , D. W. , VanLeeuwen , J. A. , Spark , K. M. and Mulcahy , D. E. 2002 . Pyrolysis characterization of plant, humus and soil extracts from Australian catchments . J. Anal. Appl. Pyrol , 65 : 269 – 285 .
- Notification of the Ministry of Industry . No. 332, B.E. 2521 (1978) issued under the Industrial Products Standard Act B.E. 2511 (1968), published in the Royal Gazette Vol.95, Part 68, dated July 4, B.E.2521 (1978)
- US EPA . National Primary Drinking Water Regulation: Stage 2 Disinfectants and Disinfection By- products Rule: Proposed Rule, Fed. Reg., 49547–49681 (accessed, August 2003)
- European Economic Community Directive . Amended proposal for a Council Directive concerning the quality of water intended for human consumption-common position . Proc. Council of the European Union, Directive 80/778/EEC, Com(97)228 final 95/0010 SYN, Brussels, 1997
- Panyapinyopol , B. , Kanokkantapong , V. , Marhaba , T. F. , Wattanachira , S and Pavasant , P. 2005 . Kinetics of trihalomethane formation from organic contaminants in raw water from the Bangkhen Water Treatment Plant . J. Environ. Sci. Health , 40 : 1543 – 1555 .
- Kim , H. C. and Yu , M. J. 2005 . Characterization of natural organic matter in conventional water treatment process for selection of treatment process focused on DBPs control . Water Res. , 39 ( 19 ) : 4779 – 4789 .
- Barber , L. B. , Leenheer , J. A. , Noyes , T. I. and Stiles , E. A. 2001 . Nature and transformation of dissolved organic matter in treatment wetlands . Environ. Sci. Technol , 35 ( 24 ) : 4805 – 4816 .
- Lin , C. F. , Liu , S. H. and Hao , O. J. 2001 . Effect of functional groups of humic substances on UF performance . Water Res , 35 ( 4 ) : 985 – 996 .
- Davis , W. M. , Erickson , C. L. , Johnson , C. T. , Delfino , J. J. and Porter , J. E. 1999 . Quantitative fourier transform infrared spectroscopic investigation of humic substances funtional group composition . Chemosphere , 38 ( 12 ) : 2913 – 2928 .
- Sposito , G. The Chemistry of Soils , New York , NY : Oxford . , 1989
- Aiken , G. R. , McKnight , D. M. , Wershaw , R. L. and MacCarthy , P. Humic Substances in Soil, Sediment, and Water: Geochemistry, Isolation and Characterization , New York : Wiley .
- Peuravuori , J. , Monteiro , A. , Eglite , L. and Pihlaja , K. 2005 . “ Comparative study for separation of aquatic humic-type organic constituents by DAX-8, PVP, and DEDE sorbing soilds and tangential ultrafiltration: Elemental composition, size-exclusion chromatography, UV-vis and FT-IR. Talanta ” . 408 – 422 . 65
- Musikavong , C. , Wattanachira , S. , Phumpaisanchai , A. and Homklin , S. 2009 . “ Fluorescent excitation-emission matrix peak intensity applied for evaluating DOC and THMFP reductions of reservoir waters by alum coagulation ” . In Southeast Asian Water Environment 3 , 217 – 222 . London : Book published by International Water Association (IWA) .
- Baker , A. 2002 . Fluorescence properties of some farm wastes: implications for water quality monitoring . Water Res , 36 ( 1 ) : 89 – 94 .
- Lee , S. and Ahn , K. H. 2004 . Monitoring of COD as an organic indicator in wastewater and treated effluent by fluorescence excitation-emission (FEEM) matrix characterization . Water Sci. Technol , 50 ( 8 ) : 57 – 63 .
- Musikavong , C. , Wattanachira , S. , Nakajima , F and Furumai , H. 2007 . Three-dimensional fluorescent spectroscopy analysis for evaluation of organic matter removal from industrial estate wastewater by stabilization ponds . Water Sci. Technol , 55 ( 11 ) 201–210 (2007
- Villge’-Ritter , A. , Masion , A. , Boulange’ , T. , Rybaci , D. and Bottero , J. 1999 . Removal of natural organic matter by coagulation-floculation: a pyrolysis-GC-MS study . Environ. Sci. Technol , 33 ( 17 ) : 3207 – 3032 .