Page 650 - Fundamentals of Water Treatment Unit Processes : Physical, Chemical, and Biological

P. 650

Gas Transfer 605

Boyle, W. C. (Ed.), ASCE Committee on Oxygen Transfer, Fine Pore Kalinske, A. A., Power consumption for oxygenation and mixing, in
(Fine Bubble) Aeration Systems, Project Summary, Eckenfelder, W. W. and McCabe, J. (Eds.), Advances in Bio-
EPA=625=8–85=010, U.S. Environmental Protection Agency, logical Waste Treatment, Pergamon Press, New York,
Cincinnati, OH, October 1985. pp. 157–168, 1963.
Boyle, W. C. et al. (Ed.), Fine Pore Aeration Systems—Design Kalinske, A. A., Economics of aeration in waste treatment, in Pro-
Manual, EPA=625=1–89=023, U.S. Environmental Protection ceedings of the 23rd Purdue Industrial Waste Conference,
Agency, Cincinnati, OH, September 1989. West Lafayette, IN, pp. 338–397, 1968.
Clunie, W. and Wu, Y., Gas Transfer Coefﬁcients for Bubble Dif- Kalinske, A. A., Economic evaluation of aerator systems, Environ-
fusers, CE 541 Unit Processes of Environmental Engineering mental Science and Technology, 3(3):229–234, March 1969a.
Laboratory, Spring, Department of Civil Engineering, Color- Kalinske, A. A., Field testing of aerators in waste treatment plants, in
ado State University, Fort Collins, CL, 1995. ASME—AIChE Joint Conference on Stream Pollution and
Conway, R. A. and Kumke, G. W., Field techniques for evaluating Abatement, New Brunswick, New Jersey, June 1969b.
aerators, Journal Sanitary Engineering Division, ASCE, 92 ASME Reprint 69-PID-7.
(SA2):21, April 1966. Lee, S. Y. and Tsui, Y. P., Succeed at gas=liquid contacting, Chem-
Cussler, E. L., Diffusion, in Mass Transfer in Fluid Systems, Cam- ical Engineering Progress, 95(7):23–49, July 1999.
bridge University Press, Cambridge, U.K., 1984. Lewis, W. K. and Whitman, W. G., Principles of gas absorption,
Danckwerts, P. V., Signiﬁcance of liquid–ﬁlm coefﬁcients in Absorption Symposium, Industrial and Engineering Chemis-
gas absorption, Industrial and Engineering Chemistry, try, 16(12):1215–1239, December 1, 1924.
43(6):1460–1467, June 1951. McKeown, J. J. and Okun, D. A., Absorption of oxygen from air
Danckwerts, P. V., Gas–Liquid Reactions, McGraw-Hill Book bubbles in water, Journal Sanitary Engineering Division,
Company, New York, 1970. ASCE, 86:37–42, 1960.
Dvorak, B. I., Lawler, D. F., Fair, J. R., and Handler, N. E., Evalu- Mueller, J. A. and Boyle, W. C., Oxygen transfer under process
ation of the Onda correlations for mass transfer with large conditions, Journal Water Pollution Control Federation,
random packings, Environmental Science and Technology, 60(3):332–341, March 1988.
30(3):945–853, March 1996. Morgan, P. F. and Bewtra, J. K., Oxygen efﬁciency in full–scale
Eckenfelder, W. W. Jr., Absorption of oxygen from air bubbles in controlled aeration tank, mm paper, presented at the 15th
water, Journal Sanitary Engineering Division, ASCE, 85:89– Annual Meeting of the Federation of Sewage and Industrial
99, 1959. Wastes Associations, Dallas, TX, October 13, 1959.
Eckenfelder, W. W. Jr., Water Quality for Practicing Engineers, Morgan, P. F. and Bewtra, J. K., Air diffuser efﬁciencies, Journal
Barnes & Noble, Inc., New York, 1970. Water Pollution Control Federation, 32(10), 1047, 1960.
Eckenfelder, W. W. Jr. and O’Connor, D. J., Biological Waste Morgan, P. F. and Bewtra, J. K., Diffused air oxygen transfer
Treatment, Pergamon Press=Macmillan, New York, 1961. efﬁciencies, in Eckenfelder, W. W. and McCabe, J. (Eds.),
Eckenfelder, W. W. Jr. and Ford, D. L., New concepts in oxygen Advances in Biological Waste Treatment, Pergamon Press,
transfer and aeration, in Gloyna, E. F. and Eckenfelder, W. W. New York, pp. 181–193, 1963.
Jr. (Eds.), Advances in Water Quality Improvement, University Powell-Groves, K., Daigger, G. T., Simpkin, T. J., Redmon, D. T.,
of Texas Press, Austin, TX, 1968. and Ewing, L., Evaluation of oxygen transfer efﬁciency and
Hale, F. E., Present status of aeration, Journal American Water alpha–factor on a variety of diffused aeration systems, Water
Works Association, 24 (9):1401–1415, September 1932. Environment Research, 64(5):691–698, July=August 1992.
Higbie, R., The rate of adsorption of a pure gas into a still liquid Rawe, J., Air stripping of aqueous solutions, Engineering Bulletin,
during short periods of exposure, Transactions American Insti- U.S. Environmental EPA=540=2–91=022, Protection Agency,
tute of Chemical Engineers, 31(1):365–380, 1935. Cincinnati, OH, October 1991.
Hill, A. G. and Rice, R. G., Historical background, properties and Sherwood, T. K., Pigford, R. L., and Wilke, C. R., Mass Transfer,
applications, in Rice, R. G. and Netzer, A. (Eds.), Handbook of McGraw-Hill, New York, 1975.
Ozone Technology and Applications, Vol. 1, Ann Arbor Sci- Staudinger, J., Knocke, W. R., and Randall, C. W., Evaluating the
ence Publishers, Ann Arbor, MI, 1982. Onda mass transfer correlation for the design of packed–col-
Houck, D. H., Aeration Survey and Evaluation of Fine Bubble Dome umn air stripping, Journal of the American Water Works
and Disc Diffuser Aeration Systems in North America, Project Association, 82(1):73–79, January 1990.
Summary, EPA=600=S2–88=001, U.S. Environmental Protec- Yunt, F. W. and Hancuff, T. O., Aeration Equipment Evaluation:
tion Agency, Cincinnati, OH, September 1988. Phase I—Clean Water Test Results, Project Summary,
Huang, J. Y. C., Selecting aerators for wastewater treatment, Plant EPA=600=S2–88=022, U.S. Environmental Protection Agency,
Engineering, 29:6569, December 24, 1975. Cincinnati, OH, May 1988.

645 646 647 648 649 650 651 652 653 654 655