1 |
Kishida, N., Tsuneda, S., Sudo, R., 2006, Anaerobic/oxic/anoxic granular sludge process as an effective nutrient removal process utilizing denitrifying phosphate-accumulating organisms, Wat. Res., 40, 2303-2310.
DOI
|
2 |
Oehmen, A., Saunders, A. M., Vives, M. T., Yuan, Z., Keller, J., 2006, Competition between polyphosphate and glycogen accumulating organisms in enhanced biological phosphorus removal systems with acetate and propionate as carbon sources, Journal of Biotechnology, 123, 22-32.
DOI
|
3 |
Saito, T., Brdjanovic, D., van Loosdrecht, M. C. M, 2004, Effect of nitrite on phsphate uptake by phosphate accumulating organisms, Wat. Res, 38, 3760-3768.
DOI
|
4 |
Shi, H. P., Lee, C. M., 2006, Combining anoxic denitrifying ability with aerobic-anoxic phosphorusremoval examinations to screen denitrifying phosphorus-removing bacteria, International Biodeterioration & Biodegradation, 57, 121-128.
DOI
|
5 |
Artan, N., Tasli, R., Ozgur, N., Orhon, D., 1998, The Fate of phosphate under anoxic conditions in biological nutrient removal activated sludge systems, Biotechnology Letters, 20(11), 1085-1090.
DOI
|
6 |
Bernat, C., Wojnowska-Baryla, I., 2007, Carbon source in aerobic denitrification, Biochem. Eng. J., 36, 116-122.
DOI
|
7 |
Brdjanovic, D., Slamet, A., van Loosdrecht, M. C. M., Hooijmans, C. M., Alaerts, G. J., Heijnen, J. J., 1998, Impact of excess aeration on biological phosphorus removal from wastewater, Wat. Res., 32, 200-208.
DOI
|
8 |
Carvalho, G., Lemos, P. C., Oehmen, A., Reis, A. A. M., 2007, Denitrifying Phosphoris removal : Linking the process performance with the microbial community structure, Wat. Res., 41, 4383-4396.
DOI
|
9 |
Chuang, S. H., Ouyang, C. F., Wang, Y. B., 1996, Kinetic competition between phosphorus release and denitrification on sludge under anoxic condition, Wat. Res., 30(12), 2961-2968.
DOI
|
10 |
Dawson, R. N., Murphy, K. L., 1972, The temperature dependency of biological denitrification, Wat. Res., 6, 71-83.
DOI
|
11 |
Eaton, A. D., Clesceri, L. S., Greenberg, A. E., 1995, Standard Methods for the Examination of Water and Wastewater, 19th ed., APHA, NW, Washington.
|
12 |
EPA, 1993, Process design manual of nitrogen control, EPA 625/r-93/010, Cincinnati, Ohio.
|
13 |
Jeon, C. O., Park, J. M., 2000, Enhanced biological phosphorus removal in a sequencing batch reactor supplied with glucose as a sole carbon source, Wat. Res., 34(7), 2160-2170.
DOI
|
14 |
Kim, Y. G., Cho, I. H., 2006, A study on the removal of nitrogen and phosphorus of municipal wastewater with biological coated media, Korean Journal of Environmental Health, 32(1), 27-35.
과학기술학회마을
|
15 |
박영식, 정노성, 김동석, 2007, SBBR에서 비포기 시간 배분에 따른 질소-인 제거 특성 비교, 한국환경과학회지, 16(7), 311-319.
DOI
|
16 |
김동석, 박영식, 2010, SBR과 SBBR에서 유입 인 농도 감소에 따른 인과 질소의 제거 특성 변화, 한국환경과학회지, 19(4), 483-490.
과학기술학회마을
DOI
|
17 |
김홍태, 김경호, 2007, 무산소조 농도 변화에 따른 DNPAOs에 의한 인 제거, 한국환경과학회지, 16(11), 1271-1277.
과학기술학회마을
DOI
|
18 |
박영식, 김동석, 2007, SBBR에서 운전주기에 따른 질소와 인 제거 특성 비교, 한국환경과학회지, 16(1), 45-53.
과학기술학회마을
DOI
|