1 |
橋本, 活性污泥 微生物の有機物 除去と渻化. 脱室の反集動力學, 第7回 水處理 研究會講演テキスト, 大阪大學 生産技術 硏究會, pp. 33 (1974)
|
2 |
順藤, 廢水處理の生物學, 産業用水調査會, pp. 365 (1976)
|
3 |
U.S. EPA, Process Design Manual for Nitrogen Control, EPA Technology Transfer (1975)
|
4 |
Reeves, G. T., Nitrogen Removal ; A Literature Review, Jour. W.P.C.F., 44(10), pp. 1895-1908 (1972)
|
5 |
Barnard, L. J., Biological Nutrient Removal without the Addition of Chemicals, Water Research, 9, pp. 485-490 (1975)
DOI
ScienceOn
|
6 |
Lawerence, A. W., and McCarty, P. L., Unified Basis for Biological Treatment Design and Operation, Jour. A.S.C.E.. Sanitary Engineering Division, 96(3), pp. 757-778 (1970)
|
7 |
田中, 微生物 による 脱窒素. 脱リン法, 環境管理, 30(6), pp. 48-60(1994)
|
8 |
국가환경기술정보센터, 환경기술정보, 환경관리공단. Sep., pp. 10-17 (2000)
|
9 |
Huang, S. C. and Hopson, E. N., Nitrification Rate in Biological Processes, Jour. Environmental Engineering Division. A.S.C.E., 100(EE2), pp. 409-422 (1974)
|
10 |
Wilson, R. W., Design and Cost Comparison of Biological Nitrogen Removal Processes, Jour. W.P.C.F., 53, pp. 1283-1295 (1981)
|
11 |
Metcalf and Eddy, Wastewater Engineering: Treatment, Disposal and Reuse, McGraw-Hill Inc. (1979)
|
12 |
APHA., AWWA. and WPCF., Standard Methods for the Examination of Water and Wastewater, 18th Ed. (1992)
|
13 |
Benefield, L. D. and Randall, C. W., Biological Process Design for Wastewater Treatment, Cliffs, N. J., (ed.), Prentice-Hall, Inc., Englewood (1980)
|