Page 162 - Industrial Wastewater Treatment, Recycling and Reuse
P. 162
136 Industrial Wastewater Treatment, Recycling, and Reuse
Bhandari, V.M., Juvekar, V.A., Patwardhan, S.R., 1997. Ion-exchange studies in the
removal of polybasic acids. Anomalous sorption behavior of phosphoric acid on weak
base resins. Sep. Sci. Technol. 32, 2481–2496.
Bhandari, V.M., Yonemoto, T., Juvekar, V.A., 2000. Investigating the differences in acid
separation behaviour on weak base ion exchange resins. Chem. Eng. Sci. 55, 6197–6208.
Bhandari, V.M., Vaidya, S.H., Bobade, G.V., Ahmad, T., 2006. Studies in adsorptive sep-
aration of lactic acid using conventional and modified adsorbents. In: IIChE Conference,
Chemcon-2006, Bharuch.
Bhuptawat, H., Folkard, G.K., Chaudhari, S., 2007. Innovative physico-chemical treatment
of wastewater incorporating Moringa oleifera seed coagulant. J. Hazard. Mater.
142, 477–482.
Bonev, B., Nenov, V., 2006. Copper recovery from acidic wastewater by ED. Acta Metall.
12, 39–44.
Cecen, F., 2011. Water and wastewater treatment: historical perspective of activated carbon
adsorption and its integration with biological processes. In: Cecen, F., Aktasr, O. (Eds.),
Activated Carbon for Water and Wastewater Treatment: Integration of Adsorption and
Biological Treatment. first ed WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
Celik, M.S., O ¨ zdermir, B., Turan, M., Koyuncu, I., Atesok, G., Sarikaya, H.Z., 2001.
¸
Removal of ammonia by natural clay minerals using fixed and fluidized bed column reac-
tors. Water Sci. Technol. Water Supply 1 (1), 81–99.
Chakinala, A.G., Gogate, P.R., Burgess, A.E., Bremner, D.H., 2009. Industrial wastewater
treatment using hydrodynamic cavitation and heterogeneous advanced Fenton proces-
sing. Chem. Eng. J. 152, 498–502.
Cho, D.L., Ekengren, O ¨ ., 1993. Composite membranes formed by plasma-polymerized
acrylic acid for ultrafiltration of bleach effluent. J. Appl. Polym. Sci. 47, 2125–2133.
Cloete, F.L.D., Marais, A.P., 1995. Recovery of very dilute acetic acid using ion exchange.
Ind. Eng. Chem. Res. 34, 2464–2467.
Coleby, J., 1971. Industrial Organic Processes. In: Hanson, C. (Ed.), Recent Advances in
Liquid–Liquid Extraction. Pergamon Press, Oxford.
Demir, A., Gunay, A., Debik, E., 2002. Ammonium removal from aqueous solution by ion-
exchange using packed bed natural zeolite. Water SA 28, 329–336.
Didenko, Y.T., McNamara, W.B., Suslick, K.S., 1999. Hot spot conditions during cavita-
tion in water. J. Am. Chem. Soc. 121, 5817–5818.
Dubinin, M.M., 1960. The potential theory of adsorption of gases and vapors for adsorbents
with energetically non-uniform surface. Chem. Rev. 60, 235–266.
Freundlich, H.M.F., 1906. Uber die adsorption in losungen. Z. Phys. Chem. 57, 385–471.
Fung, K.Y., Lee, C.M., Ng, K.M., Wibowo, C., Deng, Z., Wei, C., 2012. Process devel-
opment of treatment plants for dyeing wastewater. AIChE J. 58, 2726–2742.
Gaikar, V.G., Sharma, M.M., 1985. Dissociation extraction: prediction of separation factor
and selection of solvent. Solvent Extr. Ion Exch. 3, 679–696.
Gaikar, V.G., Mahapatra, A., Sharma, M.M., 1989. Separation of close boiling point
mixtures (p-cresol/m-cresol, guaiacol/alkylphenols, 3-picoline/4-picoline, substituted
anilines) through dissociation extractive crystallization. Ind. Eng. Chem. Res.
28, 199–204.
Gao, B.-Y., Chu, Y.-B., Yue, Q.-Y., Wang, B.-J., Wang, S.-G., 2005. Characterization and
coagulation of a polyaluminum chloride (PAC) coagulant with high Al13 content. J.
Environ. Manag. 76, 143–147.
Gogate, P.R., Pandit, A.B., 2004. A review of imperative technologies for wastewater
treatment I: oxidation technologies at ambient conditions. Adv. Environ. Res.
8, 501–551.
Gogate, P.R., Pandit, A.B., 2005. A review and assessment of hydrodynamic cavitation as a
technology for the future. Ultrason. Sonochem. 12, 21–27.
