Browse > Article

Formation behaviour of Bromate in Processes of Advanced Water Treatment System using Nakdong river water  

Kim, Young-Jin (부산광역시 수질연구소)
Hyun, Kil-Soo (경북대학교 건축도시환경공학부)
Publication Information
Journal of Korean Society of Water and Wastewater / v.25, no.4, 2011 , pp. 605-610 More about this Journal
Abstract
The objectives of this study are to investigate a bromate behaviour in the processes of advanced water treatment system (AWTS: preozonation, coagulator-settler, rapid sand filter, postozonation, biological activated carbon (BAC) beds) and to investigate the effects of ozonation, pH and ammonia nitrogen on bromate (${BrO^-}_3$) formation. As a result, $BrO_3$ was not detected in the processes of the AWTS without ozonation, while it was detected in a preozonated and postozonated water. For $BrO_3$ formation during June to November, the $BrO_3$ concentration of <9.4${\mu}g/L$ was observed in postozonated water, while it was reduced to about 46% by BAC beds. When applied ozone dosage and ozone contact time for influent with $Br^-$ of <0.3mg/L were 0.5-2.0mg/L.min and 10 min., $BrO_3$ concentration increased with increasing ozone dosage. Longer contact time and lower ozone level also was needed to inhibit the formation of $BrO_3$. At ozone dosage of 1.4 mg/L.min, the formation rate of $BrO_3$ increased with increase of pH value. When $NH_4-N$ concentration increased from 0.1mg/L to 0.4mg/L, $BrO_3$ concentration decreased to about 38%. These results revealed that $BrO_3$ concentration increased with increasing Br level, ozone dosage, and pH value, while it decreased with increase of $NH_4-N$ concentration.
Keywords
Bromide; Bromate; Advanced water treatment system; Ozonation; pH; Ammonia nitrogen;
Citations & Related Records
연도 인용수 순위
  • Reference
1 김영진,송미정,빈재훈,현길수 (2011) 낙동강 유역의 하천수와 정수중의 브롬화합물 거동, 한국수처리학회지, 19(2), pp.37-44.
2 김영진, 송미정, 임용승, 유평종, 현길수 (2007) 낙동강 유역내 알데히드 분포 및 정수처리특성, 한국수처리학회지, 15(3), pp.89-96.
3 김영진, 현길수 (2006) THM과 HAA의 생성반응에 있어서 주요영향인들의 특성조사, 한국수처리학회지, 14(2), pp.79-86.
4 宮田雅典 等 (1997) 高度淨水處理過程における臭素酸イオンの生 成とその擧動, 水道協會雜誌, 750, pp. 16-25.
5 日本水道協會 (2001) 日本上水試驗方法, pp.312-315
6 Bernard, L., Bernard, p., Karine, G., Florence, B. and Jean, P. C. (2004) Modeling of Bromate Formation by Ozonation of Surface Waters in Drinking Water Treatment, Water Research, 38, pp. 2185-2195.   DOI   ScienceOn
7 DeAngelo, A.B., George, M.H., Kilburn, S.R., Moore, T.M. and Wolf, D.C. (1998) Carcinogenicity of potassium bromate administrated in the drinking water to male B6C3F mice and F344/N rats, Toxicol. Pathol., 26(5), pp.587-594.   DOI
8 Faust, S.D., Aly, O.M. (1998) Chemistry of Water Treatment, second ed. Lewis Publishers, Boca Raton, FL, p.69
9 Glaze, W.H., Weinberg, H.S. (1999) Identification and occurrence of ozonation by-products indrinking water. In: AWWRF, Denver, CO, p.47
10 Gordon, G., Gauw, R., Emmert, G., Walters, B., Bubnis, B. (2002) Chemical reduction methods for bormate ion removal, J. AWWA, 94(2), pp.91-98.
11 Haag, W.R., Hoigne, J.(1983) Ozonation of bromide-containing waters: kinetics of formation of hypobromous acid and bromate, Environ Sci Technol, 17, pp.261-267.   DOI   ScienceOn
12 Kirisitis, M., Snoeyink, V., Kruithof, J. (2000) The reduction of bromate by granular activated carbon, Water Res., 34(17), pp.4250-4260.   DOI   ScienceOn
13 Legube, B.A (1996) A survey of bromate ion in European drinking water, Ozone Sci. Eng., 18, pp. 325-348.   DOI   ScienceOn
14 Marhaba, T., Medlar, S. (1993) Treatment/removal of bromate and bromide ions from drinking water. Proceedings AWWA Water Quality Technology Conference, Miami, USA, pp. 297-320.
15 Mohamed S. Siddiqui, Gary L. Amy, Rip G. Rice (1995) Bromate Ion Formation : A Critical Review, Jour.AWWA, 87(10), pp. 58-70.   DOI
16 Moniwa, T. (1995) Ozonation in water purification, J. Jpn Water Works Assoc. 64(10), pp.2-6.
17 Richardson, S.D., Thruston Jr.A.D., Caughran, T.V., Chen, P.H., Collette, T.W., Floyd, T.L., Sun, K.M., Lykins, Jr.B.W., Sun, G. and Maietich, G.(1999) Identification of new drinking water disinfection byproducts formed in the presence of bromide, Envir. Sci. Technol., 33(19), pp.3378-3383.   DOI   ScienceOn
18 Siddiqui, M., Amy, G.(1994) Removal of bromate during drinking water treatment by UV irradiation, IOA Regional Conference Proceedings, Zurich, Switzerland, pp.49-62.
19 US.EPA (1998) Health risk assessment/characterization of the drinking water disinfection byproducts bromate. Office Science and Technology, Office of Water, March 13,1998. Quoted in Federal Register 63(61), 15,673-15,692, FR Document 98-8215.
20 Von Gunten, U, Oliveras, V.(1998) Advanced oxidation of bromide-containing waters: bromate formation mechanisms, Environ Sci Technol, 32, pp.63-70.   DOI   ScienceOn
21 WHO (2004) Guidelines for Drinking Water Quality, The 3rd ed. 1. p.340.