과제정보
본 연구는 한국건설기술연구원 주요사업의 연구비 지원으로 수행되었습니다(과제번호: 20200425). 이에 감사드립니다.
참고문헌
- Chae, M.B. and Oh, S.C., Ministry of Environment. (2012). A study on the improvement methods for treatment efficiency of phosphorus treatment facilities, 1-183.
- Chang, H.Y. (2017). Phosphorus removal by hydroxyapatite crystallization using limestone filter bed in wastewater effluent, Master's thesis, University of Science and Technology, Daejeon, Korea, 1-67.
- Edzwald, J.K., Bunker, D.Q., Dahlquist, J., Gillberg, L. and Hedberg, T. (1994). Chemical Water and Wastewater Treatment III. Springer-Veriag, Berlin, 3-18.
- George, T. and Franklin, L.B. (2016). Wastewater Engineering. th edition, Donghwa Publishing, Seoul, 1-1942.
- Jang, Y.J., Jung, J.H., Chang, H.Y., Park, N.R., Lim, H.M. and Kim, W.J. (2020a). Decision of optimal coagulant dosage for SeDAF(sedimentation and dissolved air flotation) process applicable to enhanced phosphorus removal, KSWST J. Water Treat., 28(4), 33-42.
- Jang, Y.J., Jung, J.H., Chang, H.Y., Park, N.R., Maghfiroh, M. and Kim, W.J. (2020b). Sludge production characteristics of Sedimentation.Dissolved air flotation (SeDAF) process for enhanced phosphorus removal, J. Korean Soc. Environ. Eng., 42(11), 529-538. https://doi.org/10.4491/KSEE.2020.42.11.529
- Jang, Y.J., Jung, J.H., Ahn, K.H., Lim, H.M. and Kim, W.J. (2020c). Applicability of Al/P (aluminium/phosphorus) ratio in SeDAF process for enhanced phosphorus removal, J. Korean Soc. Environ. Eng., 42(11), 539-547. https://doi.org/10.4491/KSEE.2020.42.11.539
- Jang, Y.J., Jung, J.H., Lim, H.M. and Kim, W.J. (2020d). Empirical evaluation for design parameters and operating characteristics of the integrated sedimentation and flotation process (SeDAF) at demonstration-plant scale, J. Korean Soc. Water Wastewater, (In press).
- Kim, B.C., Sa, S.H., Kim, M.S., Lee, Y.K. and Kim, J.K. (2007). The limiting nutrient of eutrophication in reservoirs of Korea and the suggestion of a reinforced phosphorus standard for sewage treatment effluent, J. Korean Soc. Water Environ., 23(4), 512-517.
- Kim, S.J., Park, S.M., Park, H.Y., Lee, K.C. and Kwon, O.S., National Institute of Environmental Research. (2010). Best available technology and management practice using physicochemical methods for phosphorus removal in municipal wastewater treatment plants in the priority areas of the 4 major rivers, NIER No. 2010-01-1176, 1-23.
- Lee, H.K. (2014). A Case study on the Evaluation of efficiency treatment plant TP treatment facility in public sewage source, Master's thesis, Chonnam National University, Chonnam, Korea, 1-54.
- Lee, J.I., Jo, Y.M., Jung, H.Y. and Hong, I.S., Gyeonggi Research Institute. (2018). Method for efficient treatment of sewage sludge, Policy Res., 2018-39, 1-100.
- Malley, (Jr.) J.P. and Edzwald, J.K. (1991). Laboratory comparison of DAF with conventional treatment, J Am Water Works Assoc, 83(9), 56-61. https://doi.org/10.1002/j.1551-8833.1991.tb07214.x
- Ministry of Environment. (2017). Korean design standards of water treatment facility, KC Code KDS 57 55 00, 1-100.
- Ministry of Environment. (2019). Korean design standards of sewage facility, KC Code KDS 61 00 00, 1-107.
- So, S.H., Lee, B.H., Park, J.H., Cha, H.Y., Kim, H.S. and Song K.G. (2018). Improvement of dewaterability and settleability of sewage sludge using coagulation sludge, J. Korean Soc. Water Wastewater, 32(2), 89-96. https://doi.org/10.11001/jksww.2018.32.2.089
- Wetzel, R.G. (2001). Limnology, 3rd edition, Academic press, Massachusetts, 239-288.