Investigations on Cationic Exchange Capacity and Unused Bed Zone according to operational conditions in a Fixed Bed Reactor for water lead removal by a natural zeolite.
Fanfan, Pierre Naïder; Mabon, Nicolas; Thonart, Philippeet al.
2006 • In Biotechnologie, Agronomie, Société et Environnement, 10 (2), p. 93-99
Cationic exchange capacity; Unused bed zone; Clinoptilolite; Fixed bed reactor; Zeolite; Capacité d'échange cationique; Zone de lit non utilisée; Cliloptilolite; Réacteur à lit fixe; Zéolite
Disciplines :
Environmental sciences & ecology
Author, co-author :
Fanfan, Pierre Naïder
Mabon, Nicolas
Thonart, Philippe ; Université de Liège - ULiège > Gembloux Agro-Bio Tech
Lognay, Georges ; Université de Liège - ULiège > Gembloux Agro-Bio Tech > Unité de Chimie Analytique
Copin, Alfred
Barthelemy, Jean-Paul ; Université de Liège - ULiège > Gembloux Agro-Bio Tech > Unité de Chimie Analytique
Language :
English
Title :
Investigations on Cationic Exchange Capacity and Unused Bed Zone according to operational conditions in a Fixed Bed Reactor for water lead removal by a natural zeolite.
Alternative titles :
[fr] Etude de la capacité d'échange cationique d'une zéolite naturelle et de la zone non utilisée d'un réacteur à lit fixe en fonction des conditions opératoires pour l'élimination du plomb dans l'eau
Publication date :
2006
Journal title :
Biotechnologie, Agronomie, Société et Environnement
ISSN :
1370-6233
eISSN :
1780-4507
Publisher :
Presses Agronomiques de Gembloux, Gembloux, Belgium
Alvarez-Ayuso E., Garcia-Sanchez A., Querol X. (2003). Purifi cation of metal electroplating waste waters using zeolites. Water Res. 37 (20), p. 4855–4862.
Angerville R., Rony FJ., Balthazard K., Emmanuel E. (2004). Assessment of human exposures to lead in drinking water. XXIX Congrès Interaméricain du Génie Sanitaire et des Sciences de lʼEnvironnement, San Juan, Porto-Rico.
Bliefert C., Perraud R. (2001). Chimie de lʼenvironnement air, eau, sols, déchets. Bruxelles : De Boeck Université, 477 p.
Carré JC. (1997). Étude de lʼimpact des peintures laques et vernis sur lʼenvironnement et la santé. Haïti : Ministère de lʼEnvironnement & lʼOPS/OMS, 36 p.
Fanfan P., Mabon N., Carletti I., Claustriaux JJ, Thonart P., Lognay G., Copin A., Barthelemy JP (2005). New model for performance prediction in fi xed bed reactors based on the approach of the unused bed zone. Water Res. 39, p. 4004–4010.
Guangsheng Z., Xingzheng L., Guangju L., Quanchang Z. (1988). Removal of copper from electroplating effl uents (potch water) using clinoptilolite. In: Kallo D., Sherry HS. Occurences, Properties and Utilization of Natural Zeolites. Budapest : Akademiai Kiado, p. 529–539.
Hashimoto K., Miura K., Tsukano M. (1977). Experimental verifi cation of design methods for liquid phase fi xed bed absorbers. J. Chem. Eng. Jpn 10, p. 27–34.
Helfferich F. (1995). Ion Exchange. New York, Dover, p. 421.
Hlaway J., Vigh G., Olaszi V., Inczedy J. (1982). Investigations on natural Hungarian zeolite for ammonia removal. Water Res. 16, p. 417–420.
Inczédy J.(1966). Analytical applications of ion exchangers. Budapest : Akademiai Kiado, p. 1–80.
Inglezakis VJ., Grigoropoulou H. (2004). Effects of operating conditions on the removal of heavy metals by zeolite in fi xed bed reactors. J. Hazardous Mater. B112, p. 37–43.
Inglezakis VJ., Grigoropoulou H. (2003). Modeling of Ion Exchange of Pb2+ in Fixed Beds of Clinoptilolite. Microporous and Mesoporous Mater. 61 (1-3), p. 273–282.
Inglezakis VJ., Loizidou MD., Grigoropoulou H. (2002). Equilibrium and kinetic ion exchange studies of Pb2+, Cr3+, Fe3+ and Cu2+ on natural clinoptilolite. Water Res. 36, p. 2784–2792.
Jörgensen SE., Libor O., Graber KL., Barkacs K. (1976). Ammonia removal by use of clinoptilolite. Water Res. 10, p. 213.
Jun-Boum P., Seung-Hak L., Jae-Won L., Chae-Young L. (2002). Lab scale experiments for permeable reactive barriers against contaminated groundwater with ammonium and heavy metals using clinoptilolite. J. Hazardous Mater. 95 (1-2), p. 65–79.
Keane MA. (1998). The removal of copper and nickel from aqueous solution using Y zeolite ion exchanger. Colloids and surfaces A. Physicochem. Eng. Aspects 138, p. 11–20.
Klieve JR., Semmens MJ. (1980). An evaluation of pretreated natural zeolites for ammonium removal. Water Res. 14, p. 161–168.
Lau A., Crittenden BD., Field RW. (2004). Enhancement of Liquid Phase Adsorption Column Performance By Means of Oscilatory Flow: an experimental study. Sep. Purif. Technol. 35 (2), p. 113–124.
Leppert D. (1990). Heavy metal sorption with clinoptilolite zeolite : alternatives for treating contaminated soil and water. Mining Eng. 42 (6), p. 604–608.
Lieu KT., Weber WJ. (1981). J. WPCF 53, p. 1541.
McLaren JR., Farquhar GJ. (1973). Factors affecting ammonia removal by clinoptilolite. J. Environ. Eng. Div. EE4, p. 429–446.
Nastro A., Colella C. (1983). Column ion exchange data for ammonium removal water by phillipsite tuff. Ing. Chim. Ital. 19 (5-6), p. 41–45.
Pabalan RT. (1994) Thermodynamics of ion exchange between clinoptilolite and aqueous solutions of Na+/K+and Na+/Ca2+. Geoch. Cosmochim. Acta 58, p. 4573–4590.
Pansini M. (1996). Natural Zeolites as Cation Exchangers for Environmental Protection. Mineral Deposita 31, p. 563–575.
Perić J., Trgo M., Vukojević Medvidović N. (2003). Removal of zinc, copper and lad by natural zeolite - a comparison of adsorption isotherms. Water Res. Artic. Press.
Rodríguez-Iznaga I., Gómez A., Rodríguez-Fuentes G., Benítez-Aguilar A. (2002). Natural clinoptilolite as an exchanger of Ni2+ and NH4 + ions under hydrothermal conditions and high ammonia concentration. Microporous Mesoporous Mater. 53 (1-3), p. 71–80.
X1, US Environmental Protection Agency (2005). http://www.epa.gov/dclead. Consulted on 18/08/05.
X2, NZ Natural Zeolite Zeotec Water (2005). http://www.zeolite.co.nz/what.html. Consulted on 11/02/05.
