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Advanced Physico-chemical Methods of Treatment for Industrial Wastewaters 135

Aguilar, M.I., Saez, J., Llorens, M., Soler, A., Ortuno, J.F., 2002. Nutrient removal and
sludge production in the coagulation-flocculation process. Water Res. 36, 2910–2919.
Ahmaruzzaman, M., Gayatri, S.L., 2011. Activated neem leaf: a novel adsorbent for the
removal of phenol, 4-nitrophenol, and 4-chlorophenol from aqueous solutions. J.
Chem. Eng. Data 56, 3004–3016.
Ahsan, S., Kaneco, S., Ohta, K., Mizuno, T., Kani, K., 2001. Use of some natural and waste
materials for waste water treatment. Water Res. 35, 3738–3742.
Ait Ouaissa, Y., Chabani, M., Amrane, A., Bensmaili, A., 2013. Removal of Cr(VI) from
model solutions by a combined electrocoagulation sorption process. Chem. Eng. Tech-
nol. 36, 147–155.
Ali, I., 2012. New generation adsorbents for water treatment. Chem. Rev. 112, 5073–5091.
Aljundi, I.H., Belovich, J.M., Talu, O., 2005. Adsorption of lactic acid from fermentation
broth and aqueous solutions on zeolite molecular sieves. Chem. Eng. Sci. 60 (18), 5004.
Anwar, M.M., Hanson, C., Pratt, M.W.T., 1971a. An improved dissociation extraction pro-
cess for the separation of acidic and basic isomers. In: Process Intensification Solvent
Extraction Conference, vol. 2, 911 pp.
Anwar, M.M., Hanson, C., Pratt, M.W.T., 1971b. Dissociation extraction. I. General the-
ory. Trans. Ins. Chem. Eng. 49, 95.
Anwar, M.M., Cook, S.T.M., Hanson, C., Pratt, M.W.T., 1979. Separation of 2,3- and 2,6-
dichlorophenols by dissociation extraction. In: Proceedings International Solvent
Extraction Conference, 1977, vol. 2, 671 pp.
Anwar, M.M., Arif, A.S., Pritchard, D.W., 1995. Separation of closely related organic acids
and bases dissociation extraction. Solvent Extr. Ion Exch. 13, 127–142.
Ashtekar, V.S., 2007. Studies in coagulation for removal of colour from dye wastewater.
M. Tech. Thesis, University of Pune.
Ashtekar, V.S., Bhandari, V.M., Shirsath, S.R., 2010. How to develop effective coagulant
formulations for dye wastewater treatment? – Key parameters and effect analysis.
In: IIChE Conference CHEMCON-2010.
Aziz, H.A., Adlan, M.N., Zahari, M.S., Alias, S., 2004. Removal of ammoniacal nitrogen
(N-NH3) from municipal solid waste leachate by using activated carbon and limestone.
Waste Manage. Res. 22, 371–375.
http://www.balticuniv.uu.se/index.php/boll-online-library/831-swm-2-water-use-and-
management[Accessed: 12 August 2013].
Bashir, T.A., Soni, A.G., Mahulkar, A.V., Pandit, A.B., 2011. The CFD driven optimisation
of a modified venturi for cavitational activity. Can. J. Chem. Eng. 89, 1366–1375.
Berrin, T., 2008. New technologies for water and wastewater treatment: a survey of recent
patents. Recent Patents Chem. Eng. 1, 17–26.
http://bestotc.com/493/uncategorized/cavigulation-cavitation-technologies-solution-to-
the-water-crisis-refining-the-desalination-process/ [Viewed 21 January, 2014].
Bhandari, V.M., 1998. Implications of weak donnan potential in ion-exchange reactions. An
alternate strategy for modeling sorption processes. Sep. Sci. Technol. 33, 2009–2024.
Bhandari, V.M., Juvekar, V.A., Patwardhan, S.R., 1992a. Sorption studies on ion exchange
resins. 1. Sorption of strong acids on weak base resins. Ind. Eng. Chem. Res.
31, 1060–1073.
Bhandari, V.M., Juvekar, V.A., Patwardhan, S.R., 1992b. Sorption studies on ion exchange
resins. 2. Sorption of weak acids on weak base resins. Ind. Eng. Chem. Res.
31, 1073–1080.
Bhandari, V.M., Juvekar, V.A., Patwardhan, S.R., 1993. Sorption of dibasic acids on weak
base resins. Ind. Eng. Chem. Res. 32, 200–206.
Bhandari, V.M., Sawarkar, C.S., Juvekar, V.A., 1996. Ion exchange separations – selectivity
in acid sorption. In: Varma, et al., (Eds.), Advances in Chemical Engineering. Proceed-
ings of International Conference. Allied Publishers, 81 pp.

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