Acknowledgement
본 연구는 한국건설기술연구원 주요사업의 연구비 지원으로 수행되었습니다(과제번호: 20200425). 이에 감사드립니다.
References
- 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.
- Choi, H.S., Lee, K.S., Lee, C.S., Kim, H.K. and Park, J.S. (2010). "Organic and T-P treatment technology using CATT process and stopper", KSWW.KSWE Conference, 2010(0), 103-104.
- 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. 5th edition, Donghwa Publishing, Seoul, 1-1942.
- Jang, Y.J., Jung, J.H., Ahn, K.H., Lim, H.M. and Kim, W.J. (2020a). 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., Chang, H.Y., Park, N.R., Lim, H.M. and Kim, W.J. (2020b). 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. (2020c). 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
- 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.
- Korea Water and Wastewater Works Association, Ministry of Environment. (2010). Korean design standards of water treatment facility, ISBN 978-89-7706-211-5 93530, 1-1173.
- Korea Water and Wastewater Works Association, Ministry of Environment. (2011). Korean design standards of sewage facility, ISBN 978-89-7706-212-2 93530, 1-1109.
- 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, K.C. (2011). Characteristics of Phosphorus Removal in Treated Sewage Using Microbubble Flotation System, Ph.D thesis, The University of Seoul, Seoul, Korea, 1-169.
- Lee, S.J. (2000). A Study on the Water Purification Characteristics among the Conventional Sedimentation, Circular-type Dissolved Air Flotation and the Combined Process of Sedimentation-Flotation, Master's thesis, Yonsei University, Seoul, 1-35.
- Malley, 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. (2012), A study on improvement methods for treatment efficiency of phosphorus treatment facilities, 1-183.
- 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.
- Odegaard, H. (1985). Chemical water and wastewater treatment. Fisher, New York, 81-102.
- Park, S.J., Yoon, T.I., Cho, K.C. and Kim, C.G. (2000). Application of ultra rapid coagulation for securing water resource II: study of CSO treatment and sludge reuse, Clean Technol., 6(1), 39-49.
- United States Environmental protection agency (USEPA). (2010). Nutrient control design manual. Washington D.C., United States, 1-369.
- Wetzel, R.G. (2001). Limnology, 3rd, Academic press, Massachusetts, 239-288.