Environmental Engineering Reference
In-Depth Information
Agbekodo, K., Legube, B., and Cote, P. (1996). “Organic in NF permeate.”
J. Am.
Water Works Assoc.
, 88, 67-74.
Agui, W., Tamura, S., Abe, M. and Ogino, K. (1992). “Removal of dissolved humic
substances from water with a reverse osmosis membrane.”
The Science of the Total
Ennvironment
, 117/118, 543-550.
Akbari, A., Desclaux, S., Rouch, J. C., and Remigy, J. C. (2007). “Application of
nanofiltration hollow fiber membranes, developed by photografting, to treatment of
anionic dye solutions.”
J. Membr. Sci
., 297, 243 - 252.
Alawadhi, A. A. (1997). “Pretreatment plant design-key to a successful reverse osmosis
desalination plant.”
Desalination
, 110, 1- 10.
Asano, T., Burton, F. L., Leverenz, H. L., Tsuchihashi, R., and Tchobanoglous G.
(2007). “
Water Reuse: Issues, Technologies and Applications
.” McGraw-Hill Inc.,
N.Y.
Asano, T., and Cotruvo, J. (2007). “
Groundwater recharge with recycled municipal
wastewater: health and regulatory considerations.
”
http://www.who.int/
water_sanitation_health/wastewater/wsh0308chap6.pdf
(accessed July 28, 2007).
Bellona, C., and Drewes, J. E. (2005). “The role of membrane surface charge and solute
physico-chemical properties in the rejection of organic acids by NF.”
Journal of
Membrane Science
, 249, 227-234.
Bellona, C., and Drewes, J. E. (2007). “Viability of a low-pressure nanofilter in treating
recycled water for water reuse applications: a pilot-scale study.”
Water Res
., 41 (17),
3948 - 3958.
Bergman, R. A. (1995). “Membrane softening versus lime softening in Florida: A cost
comparison update.”
Desalination
, 102, 11-24.
Bowen, W. R., Mohammad, A. W. and Hilal, H. (1997). “Characterisation of
nanofiltration membranes for predictive purposes-use of salts, uncharged
solutes and atomic force microscopy.”
Journal of Membrane Science
, 126, 91-105.
Braghetta, A. (1995). “
The influence of solution chemistry and operating conditions on
nanofiltration of charged and uncharged organic macromolecules
.” Dissertation,
University of North Carolina, Chapel Hill.
Buckley, C. A. (1992). “Membrane technology for the treatment of dyehouse effluents.”
Water Sci. Technol
., 25, 203 - 209.
Capar, G., Yetis, U., and Yilmaz, L. (2006). “Reclamation of printing effluents of a
carpet manufacturing industry by membrane processes.”
J. Membr. Sci
., 277, 120 -
128.
Choi, J. H., Dockko, S., Fukushi, K., and Yamamoto, K. (2002). “A novel application of
a submerged nanofiltration membrane bioreactor (NF MBR) for wastewater
treatment.”
Desalination
, 146, 413 - 420.
Choi, J. H., Fukushi, K., and Yamamoto, K. (2007). “A submerged nanofiltration
membrane bioreactor for domestic wastewater treatment: the performance of
cellulose acetate nanofiltration membranes for long-term operation.”
Sep. Purif.
Technol
., 52, 470 - 477.
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