986 PHYSICAL AND CHEMICAL TREATMENT OF WASTEWATERS
Aiyuk, S., Amoako, J., Raskin, L., van Haandel, A., and Verstraete, W.
(2004). Removal of carbon and nutrients from domestic wastewater
using a low investment, integrated treatment concept. Water Research,
38(13), 3031–3042.
Akcil, A. (2003). Destruction of cyanide in gold mill effluents: biological
versus chemical treatments. Biotechnology Advances, 21(6), 501–511.
Albertson, O.E. and Sherwood, R.J. (1967). Phosphate extraction process.
Paper presented at the Water Pollution Control Federation meeting,
Yakima, Washington, October.
Andreozzi, R. and Marotta, R. (2004). Removal of benzoic acid in aque-
ous solution by Fe(III) homogeneous photocatalysis. Water Research,
38(5), 1225–1236.
Andreozzi, R., Caprio, V., Insola, A., and Marotta, R. (1999). Advanced
oxidation processes (AOP) for water purification and recovery. Cataly-
sis Today, 53(1), 51–59.
Andreozzi, R., Caprio, V., Insola, A., Marotta, R., and Sanchirico, R.
(2000). Advanced oxidation processes for the treatment of mineral oil-
contaminated wastewaters. Water Research, 34(2), 620–628.
Anonymous (1967). Renovation and reuse of wastewaters in Britain,
published by Water Pollution Research Laboratory.
Azbar, N., Yonar, T., and Kestioglu, K. (2004). Comparison of various
advanced oxidation process and chemical treatment methods for COD
and color removal from a polyester and acetate fiber dyeing effluent.
Chemosphere, 55(1), 35–43.
Babbit, H.E., Donald, J.J., and Cleasby, J.L. (1962). Water Supply Engi-
neering. McGraw-Hill Book Company, New York.
Bailey, S.E., Olin, T.J., Bricka, R.M., and Adrian, D.D. (1998). A review of
potentially low-cost sorbents for heavy metals. Water Research, 33(11),
2469–2479.
Balcoglu, I.A., Alaton, I.A., Ötker, M., Bahar, R., Bakar, N., and Ikiz,
M. (2003). Application of advanced oxidation processes to different
industrial wastewaters. Journal of Environmental Sciences and Health,
Part A—Toxic/Hazardous Substances and Environmental Engineering,
A38(8), 1587–1596.
Baumann, E.R. and Oulman, C.S. (1970). Sand and diatomite filtration
practices. Water Quality Improvement by Physical and Chemical Pro-
cesses, Water Resources Symposium No. 3, University of Texas Press,
Austin and London, 104.
Beebe, R.L. and Stevens, J.I. (1967). Activated carbon system for wastewater
renovation. Water and Waste Engineering, 4(1), 43.
Bes-Pia, A., Iborra-Clar, A., Mendoza-Roca, J.A., Iborra-Clar, M.I., and
Alcaina-Miranda, M.I. (2004). Nanofiltration of biologically treated
textile effluents using ozone as a pre-treatment. Desalination, 167,
387–392.
Bes-Pia, A., Mendoza-Roca, J.A., Alcaina-Miranda, M.I., Iborra-Clar, A.,
and Iborra-Clar, M.I. (2003). Combination of physico-chemical treat-
ment and nanofiltration to reuse wastewater of a printing, dyeing and
finishing textile industry. Desalination, 157(1–3), 73–80.
Bhatkhande, D.S., Pangarkar, V.G., and Beenackers, A.A.C.M. (2001). Photo-
catalytic degradation for environmental applications—a review. Journal
of Chemical Technology and Biotechnology, 77(1), 102–116.
Bishop, D.F., O’Farrell, T.P., and Stanberg, J.B. (1972). Physical-chemical
treatment of municipal wastewater. Journal of the Water Pollution Con-
trol Federation, 44, (3), 361.
Bray, D.T., Merten, U., and Augustus, M. (1969). Chemical Engineering,
76(4), 60.
Bressan, M., Liberatore, L., d’Alessandro, N., Tonucci, L., Belli, C., and
Ranalli, G. (2004). Improved combined chemical and biological treat-
ments of olive oil mill wastewaters. Journal of Agricultural and Food
Chemistry, 52(5), 1228–1233.
Brunner, C.A. and Lemlich, R. (1963). Foam fractionation: standard sepa-
rator and refluxing columns. Industrial Engineering Chemistry, 2,
297–300.
Buzzell, J.C. and Sawyer, C.H. (1967). Removal of algal nutrients from raw
wastewater with lime. Journal of the Water Pollution Control Federa-
tion, 39(10), R16.
Chung, Y.-C., Ho, K.-L., and Tseng, C.-P. (2003). Hydrogen sulfide gas
treatment by a chemical-biological process: chemical absorption and
biological oxidation steps. Journal of Environmental Science and
Health, Part B—Pesticides, Food Contaminants, and Agricultural
Wastes, 38(5), 663–679.Conley, W.R., Jr. and Hsiung, K. (1965). Design and application of mul-
timedia filters. Journal of the American Water Works Association,
57(10), 1333.
Convery, J.J. (1968). Phosphorus removal by tertiary treatment with lime and
alum. Paper presented at the FWPCA Symposium on Nutrient Removal
and Advanced Waste Treatment, Tampa, Florida, November 15.
Culp, R.L. and Culp, G.L. (1971). Advanced Wastewater Treatment. Van
Nostrand Reinhold Company, New York.
Culp, G.L. and Hansen, S.P. (1967a). Extended aeration effluent polishing
by mixed media filtration. Water and Sewage Works, 114(2), 46.
Culp, G.L. and Hansen, S.P. (1967b). How to reclaim wastewater for reuse.
American City, June, 96.
Davies, D.S. and Kaplan, R.A. (1964). Activated carbon eliminates organ-
ics. Chemical Engineering Progress, 60(12), 46.
de-Bashan, L.E. and Bashan, Y. (2004). Recent advances in removing phos-
phorus from wastewater and its future use as fertilizer (1997–2003).
Water Research, 38(19), 4222–4246.
DeJohn, P.B. and Edwards, R.W. (1981). Application of GAC to municipal
wastewaters. Proceedings of the International Conference on the Appli-
cation of Adsorption to Wastewater Treatment, Vanderbilt University,
Nashville, Tennessee, 109–127.
Dillingham, J.H., Cleasby, J.L., and Baumann, E.R. (1966). Optimum design
and operation of diatomite filtration plants. Journal of the American
Water Works Association, 58(6), 657.
Dillingham, J.H., Cleasby, J.L., and Baumann, E.R. (1967). Diatomite filtra-
tion equations for flat and cylindrical septa. Journal of the Sanitary Engi-
neering Division, American Society of Civil Engineers, 93(2) (SA1), 41.
Ding, Z.Y., Frisch, M.A., Li, L., and Gloyna, E.F. (1996). Catalytic oxidation
in supercritical water. Industrial and Engineering Chemistry Research,
35(10), 3257–3279.
Eckenfelder, W.W. (1966). Industrial Water Pollution Control. McGraw-Hill
Book Company, New York.
Eckenfelder, W.W. (2000). Industrial Water Pollution Control. McGraw-Hill
Book Company, New York.
Eckenfelder, W.W. and Barnhart, E.L. (1963). Performance of high rate
trickling filter using selected media. Journal of the Water Pollution
Control Federation, 35(12), 1535.
Ecodyne (1972). Physical-chemical sewage treatment plant for the village
of Rosemount. Environmental Currents News, Environmental Science
and Technology, 6(4), 306.
Eliassen, K. and Bennett, G. (1967). Anion exchange and filtration techniques
for wastewater renovation. Journal of the Water Pollution Control Fed-
eration, 39(10), R81.
Eliassen, R. and Bennett, G.E. (1967). Renovation of domestic and industrial
waste water. Paper presented at the International Conference on Water
for Peace, Washington, DC, May.
Fane, A.G. (1996). Membranes for water production and wastewater reuse.
Desalination, 106(1–3), 1–9.
Fldib, L.A. (1963). Renovation of wastewater by foam fractionation.
Paper presented before the Division of Water and Waste Chemistry,
American Chemical Society, 143rd National Meeting, Cincinnati,
Ohio, January 15.
Fukumoto, Y. and Haga, K. (2004). Advanced treatment of swine waste-
water by electrodialysis with a tubular ion exchange membrane. Animal
Science Journal, 75(5), 479–485.
Gaffney, J.G., Junin, R., and Downing, D.G. (1970). Ion exchange for
industrial water. Water Quality Improvement by Physical and Chemi-
cal Processes, Water Resources Symposium No. 3, University of Texas
Press, Austin and London, 258.
Galambos, I., Mora Molina, J., Jaray, P., Vatai, G., and Bekassy-Molnar E.
(2004). High organic content industrial wastewater treatment by mem-
brane filtration. Desalination, 162, 117–120.
Galarneau, E. and Gehr, R. (1996). Phosphorus removal from wastewaters:
experimental and theoretical support for alternative mechanisms. Water
Research, 31(2), 328–338.
Ganes, L.M. and Staubach, J.A. (1980). Reaction of nitrilotiacetate with ozone
in model and natural waters. Environmental Science and Technology,
14, 571.
Gardea-Torresdey, J.L., dela Rosa, G., and Peralta-Videa, J.R. (2004). Use
of phytofiltration technologies in the removal of heavy metals: a review.
Pure and Applied Chemistry, 76(4), 801–813.C016_005_r03.indd 986 11/22/2005 11:25:21 AM