Effects of dolomite addition on phosphorus removal by chemical coagulation of secondary treated effluent
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Lee, Byung-Ha
(한국과학기술연구원 물자원순환연구단)
Park, Joon-Hong (연세대학교 사회환경시스템공학부) Cha, Ho-Young (엔비너지(주)) Maeng, Sung-Kyu (세종대학교 건설환경공학과) Song, Kyung-Guen (한국과학기술연구원 물자원순환연구단) |
1 | 국립환경 과학원 (2007), 낙동강수계 제2단계 수질오염총량관리 광역시도 경계점 목표수질(안). |
2 | 김동건, 박대원, 장원석 (2003), 가중응집제로 제강슬래그를 이용한 새로운 응집처리에 대한 연구, 한국물환경학회지, 19(6), pp. 655-661. |
3 | 김규진, 김정욱 (1981), 백운석의 수처리제로서의 활용 방안에 대한 연구 - pH 중화 및 연화처리 -, 대한토목학회지, 29(3), pp. 145-152. |
4 | 이상화, 이규석, 강익중, 윤현희, 함승주, 곽종운 (2004), Al(3), Fe(3)계 응집제의 인 제거 특성 및 플럭의 가시화, 한국공업화학회지, 16(1), pp. 74-80. |
5 | 조용현 ( 2011), 슬러지 블랑킷형 고속응집침전 공정을 이용한 하수 3차 처리 특성에 관한 연구, 한국수처리학회지, 19(3), pp. 67-73. |
6 | 조재성 ( 2008), 지르코늄 실리케이트를 응집보조제로 이용한 응집공정에 관한 연구, 인하대학교 석사학위논문. |
7 | 학회자료 (2004), 백운석, 한국광물학회, 17(1), pp. 91-94. |
8 | 환경부 ( 2009a), 하수도법 시행규칙 일부개정령(안). |
9 | 환경부 (2009b), 하수처리시설 총인 처리강화 시범운영 연구. |
10 | 환경부 (2010), 수질공정시험법. |
11 | 한승우, 강임석 (2010), 응집공정을 이용한 하수처리수 중의 인제거 Mechanism, 대한환경공학회지, 32(8), pp. 774-779. |
12 | 황응주, 천효창 (2009), 생물공정 처리수의 PAC(Poly Aluminum Chloride) 응집에 의한 고효율 인 제거 특성, 대한환경공학회지, 31(8), pp. 673-678. |
13 | APHA- AWWA-WEF (2005), Standard methods for the examination of water and wastewater, 21th eds. |
14 | Bratby, J. (2006), Coagulation and Flocculation in Water and Wastewater Treatment, 2nd. Ed., IWA Publishing, London.Seattle, pp. 119-149. |
15 | Cavagn aro, P.V., Work, S.W., Bennett, E.R. and Linstedt, K.D. (1978), Enhancement of phosphorus removal through iron coagulation following lime precipitation, J. WPCF, pp. 95-100. |
16 | Dziubek , A. and Kowal, A.L. (1984), Water treatment by coagulation-adsorption with dolomite, Studies in Environmental Science, pp. 205-211. |
17 | EPA (2007), Advanced wastewater treatment to achieve low concentration of phosphorus, EPA 910-R-07-002. |
18 | Johannes, D. and Waals, V.D. (1873), On the Continuity of the Gaseous and Liquid States, doctoral dissertation, Universiteit Leiden. |
19 | Karaca, S., Gurses, A., Ejder, M. and Acikyildiz M. (2006), Adsorptive removal of phosphate from aqueous solutions using raw and calcinated dolomite, Journal of Hazardous Materials, 128(1), pp. 273-279. DOI |
20 | Karaca, S., Gurses, A., Ejder, M. and Acikyildiz M. (2004), Kinetic modeling of liquid-phase adsorption of phosphate on dolomite, Journal of Colloid and Interface Science, 227, pp. 257-263. |
21 | Otsuka R. (1986), Recent studies on the decomposition of the dolomitet group by thermal analysis, Thermochimica Acta, 100(1), pp 69-80. DOI ScienceOn |
22 | Rittmann, B. E. and McCarty, P. L. (2002), Environmental Biotechnology, McGraw -Hill Korea, pp. 579-590. |
23 | Roques, H., Nugroho-Jeudy, L. and Lebugle, A. (1991), Phosphorus removal from wastewater by harf-burned dolomite, Wat. Res., 25(8), pp. 959-965. DOI ScienceOn |
24 | Takacs, I., Murthy, S., Smith, S. and McGrath, M. (2006), Chemical phosphorus removal to extremely low levels: experience of two plants in the Washington, DC area, Water Sci. Tech., 53(12), pp. 21-28. DOI ScienceOn |
25 | Water E nvironment Federation (1998), Biological and Chemical Systems for Nutrient Removal, Alexandria, VA. |
26 | Yeoman , S., Stephenson, T., Lester, J.N. and Perry, R. (1998), The removal of phosphorus during wastewater treatment: A review, Environmental Pollution, 49(3)3, pp. 183-233. |
27 | Zhoua, Y., Xinga, X.-H., Liu, Z., Cui, L., Yu, A., Feng, Q. and Yang, H., (2008). Enhanced coagulation of ferric chloride aided by tannic acid for phosphorus removal from wastewater, Chemosphere, 72(2), pp. 290-298. DOI ScienceOn |
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