Abstract
This study describes the state-of-the-art with regard to the use of natural zeolites in the protection of the environment. The review is made up of four main sections. The first introduces the possible cation exchange procedures that can be operated at an industrial level, together with the principles on which they are based. The second deals with removal of NH +4 from municipal and industrial wastewater, reporting operational results from the main industrial-scale plants, together with the most significant and recent laboratory data. The third points out the possibilities for use of natural zeolites for removal of heavy metals from water after laboratory experiments. The fourth shows how chemical and structural features make zeolites a very powerful tool for the decontamination of waters containing radionuclides.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Albino, V., Cioffi, R., Pansini, M, Colella, C. (1994) Use of lead exchanged zeolite tuff wastes as pozzolanic material. Mater. Eng. 5:289–298
Albino, V., Cioffi, R., Colella, C., Pansini, M. (1995a) Disposal of lead-containing sludges in cement matrix. Environ. Technol. 16:147–156
Albino, V., Cioffi, R., Pansini, M. (1995b) The role of naturally occurring zeolite-containing materials in the management of toxic sludges: the case of cadmium. Proc. III Convegno Naz. di Scienza e Tecnologia delle Zeoliti, Aiello, R. (ed.) De Rose Montalto, Italy, pp. 269–276
Amicarelli, V., Baldassarre, G., Boghetic, G., Liberti, L., Limoni, N. (1988) Use of Italian zeolites for deammoniation of municipal wastewater. Proc. 2nd Int. Conf. on Environment Protection: 2.A-75-82
Breck, D.W. (1974) Zeolite molecular sieves. Wiley, New York
Bremner, P.R., Schultze, L.E.:(1995) Ability of clinoptilolite-rich tuffs to remove metal cations commonly found in acidic drainage. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420; pp. 397–404. Int. Comm. Nat. Zeol
Carland, R.M., Aplan, F.F.:(1988) Stability and ion-exchange capacity of natural sedimentary zeolites in acidic solutions. In: Perspectives in molecular sieve science. ACS Symposium Series 368, Flank, W.H., Whyte, I.E., Jr. (eds.) Maple Press York, PA (USA): pp. 292–305
Cassel, A.F., Pressley, T.A., Schuk, W.W., Bishop, D.F. (1972) Physical-chemical nitrogen removal from municipal wastewater. AIChE, Symp. Ser. 68, 124: 56–64
Chelishchev, N.F. (1995) Use of natural zeolites at Chernobyl. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420 pp. 525–532. Int. Comm. Nat. Zeol
Chmielewska-Horvatova, E., Konecny, J., Bosan, Z. (1992) Ammonia removal from tannery wastewaters by selective ion exchange on Slovak clinoptilolite. Acta Hydrochim. Hydrobiol. 20(5):269–272
Ciambelli, P., Corbo, P., Lumare, F., Porcelli, C. (1984) Ammonium ion exchange with phillipsite tuff in relation to aquacultural systems. In: Zeo-agriculture, use of natural zeolites in agriculture and aquaculture, Pond, W.G., Mumpton, F.A. (eds.) Westview Press Boulder, Colorado pp. 245–252
Ciambelli, P., Corbo, P., Liberti, L., Lopez, A., Porcelli, C. (1985a) Ammonia removal from municipal water by phillipsite. In: Zeolites: synthesis, structure, technology and application, Hocevar, D.S., Pejovnik, S. (eds.) Elsevier, Amsterdam pp. 539–546
Ciambelli, P., Corbo, P., Porcelli, C., Rimoli, A. (1985b) Ammonia removal from wastewater by natural zeolites. I. Ammonium ion exchange properties of an Italian phillipsite tuff. Zeolites 5:184–187
Cioffi, R., Marroccoli, M., Pansini, M. (1991) Utilization of chromium exchanged zeolite tuff in the manufacture of blended cements. Proc. I Convegno Naz. di Scienza e Technologia delle Zeoliti, Colella, C. (ed.) De Frede Napoli pp. 101–107
Colella, C., Nastro, A., Aiello, R. (1983) Impiego di tufi zeolitici per la rimozione di ammonio da acque reflue. Engineering Materials, Proc. of the 1st National Meeting ASMI 193–198
Colella, C., Aiello, R., Nastro, A. (1984) Evaluation of phillipsite tuff for the removal of ammonia from aquacultural wastewaters. In: Zeo-agriculture, use of natural zeolites in agriculture and aquaculture, Pond, W.G., Mumpton, F.A. (eds.) Westview Press Boulder, Colorado, pp. 239–244
Collella, C., Aiello, R. (1988) Ammonium removal from tannery sewages by selective ion exchange using natural phillipsite. In: Occurrence, properties and utilization of natural zeolites, Kallò, D., Sherry, H.S. (eds.) Akademiai Kiado, Budapest, pp. 491–500
Colella, C., Pansini, M. (1988) Lead removal from wastewaters using chabazite tuff. In: Perspectives in molecular sieve science. ACS Symposium Series 368, Flank, W.H., Whyte, I.E., Jr. (eds.) Maple Press York, PA (USA), pp. 500–510
Colella, C. (1995) Use of Italian chabazite and phillipsite for the removal of heavy metals from wastewaters: a review. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420; pp. 363–375. Int. Comm. Nat. Zeol
Colella, C., de' Gennaro, M., Langella, A., Pansini, M. (1995) Cadmium removal from wastewater using chabazite and phillipsite. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420; pp. 377–384. Int. Comm. Nat. Zeol
Colella, C. (1996) This volume
Coffins, E.D., Campbell, D.O., King, L.J., Knauer, J.B. (1982) Water decontamination process improvement tests and considerations. AIChE Symp. Ser. 78(213) 9–15
Dyer, A., Keir, D. (1984) Nuclear waste treatment by zeolites. Zeolites 4: 215–217
Dyer, A., Kadhim, F.H. (1989) Inorganic ion exchangers for the removal of zirconium, hafnium and niobium radioisotopes from aqueous solutions. J. Radioanal. Nucl. Chem., Articles 131(1) 161–169
Dyer, A., Jozefowicz, L.C. (1992) The removal of thorium from aqueous solutions using zeolites. J. Radioanal. Nucl. Chem., Articles 159(1):47–62
Dyer, A. (1993) Use of zeolites in treatment of nuclear waste. Analytical Proceedings of the Meeting of the Radiochemical Methods Group, vol. 30, pp. 190–191
Eiscnmann, G. (1962) Cation selective glass electrodes and their mode of operation. Biophys. J. 2: 259–323
Ha, K.S., Suzuki, M. (1984) Model calculation of chemical regeneration of spent clinoptilolite from ammonium treatment. J. Chem. Eng. Japan 17 (3):297–303
Hewitt, C.N., Metcalfe, P.J., Street, R.A. (1991) A method for the sampling and removal of ionic alkyllead compounds from aqueous solutions using ion exchange media. Water Res. 25: 91–94
Hlavay, J., Vigh, G., Olaszi, V.. Inczedy, J. (1983) Ammonia and iron removal from drinking water with clinoptilolite tuff. Zeolites 3:188–190
Hlozek, P., Lukac, P., Foldesova, M. (1992) Influence of some cations on the sorption ability of modified clinoptilolites. J. Radioanal. Nucl. Chem., Letters 164(2):109–113
Huang, C.P., Hao, O.J. (1989) Removal of some heavy metals by mordenite. Environ. Techn. Lett. 10: 863–874
Jorgenscn, S.E., Libor, O., Graber, K.L., Barracs, K. (1976) Ammonia removal by use of clinoptilolite. Water Res. 10: 213–224
Kallò, D. (1995) Wastewater purification in Hungary using natural zeolites. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420:pp. 341–350. Int. Comm. Nat. Zeol
Kanno, T., Mimura, H. (1985) Inorganic ion exchangers and adsorbents for chemical processing in the nuclear fuel cycle. In: Proc. Technical Committee Meeting on Inorganic Ion Exchangers and Adsorbents for Chemical Processing in the Nuclear Fuel Cycle, organized by the International Atomic Energy Agency, Vienna 12-15 June 1984, pp. 237–247
Kesraoui-Ouki, S., Cheeseman, C., Perry, R. (1993) Effects of conditioning and treatment of chabazite and clinoptilolite prior to lead and cadmium removal. Environ. Sci. Technol. 27: 1108–1116
Klieve, J.R., Semmens, M.J. (1980) An evaluation of pretreatcd natural zeolites for ammonium removal. Water Res. 14: 161–168
Koon, J.H., Kaufman, W.J. (1975) Ammonia removal from municipal wastewater by ion exchange. J. Water Pollut. Control Fed. 47(3):448–465
Liberti, L.. Boari, G., Passino, R. (1979) Phosphates and ammonia recovery from secondary effluents by selective ion exchange with production of a slow-release-fertilizer. Water Res. 13: 65–73
Liberti, L., Boari, G., Petruzzelli, D., Passino, R. (1981) Nutrient removal and recovery from wastewater by ion exchange. Water Res. 15: 337–342
Liberti, L., Lopez, A., Amicarelli, V., Boghetic, G. (1995) Ammonium and phosphorus removal from wastewater using clinoptilolite: a review of the RIM-NUT process. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420; pp. 351–362. Int. Comm. Nat. Zeol
Loizidou, M., Haralambous, K.J., Loukatos, A., Dimitrakopolou, D. (1992) Natural zeolites and their ion exchange behavior towards chromium. J. Environ. Sci. Health A27(7):1759–1769
Lopez, A., Liberti, L. (1991) Zeolites “closed loop” regeneration. Proc. I Convegno Naz. di Scienza e Technologia delle Zeoliti, Colella, C. (ed.) De Frede Napoli, pp. 139–146
Loukatos, A., Loizidou, M., Spyrcllis, N. (1993) Ion exchange behaviour of mercury using natural and synthetic zeolites. Fresenius Envir. Bull. 2: 250–255
Lukac, P., Hlozek, P., Foldesova, M. (1992) Sorption of 137Cs and 60Co by chemically treated clinoptilolite and mordenite. Geol. Carpathica Series Clays, 2, 43: 125–128
Lukac, P., Foldesova, M. (1994) Sorption properties of chemically treated clinoptilolites with respect to Cs and Co. J. Radioanal. Nucl. Chem., Lett., 188 (6):427–437
Maliou, E., Malamis, M., Sakellarides, P.O. (1992) Lead and cadmium removal by ion exchange. Water Sci. Technol. 25: 133–138
Maliou, E., Loizidou, M., Spyrellis, N. (1994) Uptake of lead and cadmium by clinoptilolite. Sci. Total Environ. 149: 139–144
McLaren, J.R., Farquhar, G.J. (1973) Factors affecting ammonia removal by clinoptilolite. Am. Soc. Civ. Eng. 99(4):429–446
Mercer, B.W., Ames, L.L., Touhill, C.J., Van Slike, W.J., Dean, R.B. (1970) Ammonia removal from secondary effluents by selective ion exchange. J. Water Pollut. Control Fed. 42(2):R95
Mercer, B.W., Ames, L.L. (1976) Zeolite ion exchange in radioactive and municipal wastewater treatment. In: Natural zeolites. Occurrence, properties, uses, Sand, L.B., Mumpton, F.A. (eds.) Pergamon Press Elmsford, pp. 451–462
Michaels, A.S. (1952) Simplified method of interpreting kinetic data in fixed-bed ion exchange. Ind. Eng. Chem. 44: 1922–1930
Mimura, H., Kanno, T. (1985) Distribution and fixation of cesium and strontium in zeolite A and chabazite. J. Nucl. Sci. Technol. 22:284–291
Mimura, H., Ishihara, Y., Akiba, K. (1991) Adsorption behavior of americium on zeolites. J. Nucl. Sci. Technol. 28: 144–151
Mimura, H., Akiba, K., Igarashi, H. (1993a) Removal of heat generating nuclides from high-level liquid wastes through mixed zeolite columns. J. Nucl. Sci. Technol. 30: 239–247
Mimura, H., Iijima, K., Akiba, K. (1993b) Surface alteration of sintered product of cesium aluminum silicate under hydrothermal conditions. J. Nucl. Sci. Technol. 30: 1145–1152
Mimura, H., Akiba, K.. Kavamura, K. (1994a) Separation of heat generating nuclides from high-level liquid wastes through zeolite columns. J. Nucl. Sci. Technol. 31: 463–469
Mimura, H., Akiba, K., Igarashi, H. (1994b) Elulion behavior of cesium by using inorganic salt and acid solution. J. Nucl. Sci. Technol. 31: 711–715
Mimura, H., Kobayashi, T., Akiba, K. (1994c) Recovery of heat-generating nuclides in eluted solutions. J. Nucl. Sci. Technol. 31:996–998
Mimura, H., Kobayashi, T., Akiba, K. (1995) Chromatografic separation of strontium and cesium with mixed zeolite column. J. Nucl. Sci. Technol. 32: 60–67
Misaelides, P., Godelitsas, A., Haristos, D., Noli, F., Filippidis, A., Sikalidis, C. (1993) Determination of heavy metal uptake by the sodium form of heulandite using radiochcmical techniques. Geol. Carpathica-Series Clays 44: 115–119
Misaelides, P., Godelitsas, A., Charistos, V., Ioannu, D., Charistos, D. (1994) Heavy metal uptake by zeoliferous rocks from Metaxades, Thrace, Greece: an exploratory study. J. Radioanal. Nucl. Chem. 183: 159–166
Mumaw, L., Bruin, W., Nightingale, J. (1981) Evaluation of a recirculating freshwater salmon rearing facility using clinoptilolite. J. World Maricul. Soc. 12(1):40–47
Murphy, C.B., Hrycyk, O., Gleason, W.T. (1976) Natural zeolites: novel uses and regeneration in wastewater treatment. In: Natural zeolites. Occurrence, properties, uses, Sand, L.B., Mumpton, F.A. (eds.) Pergamon Press Elmsford, pp. 471–478
Nastro, A., Colella, C. (1983) Column ion exchange data for ammonium removal water by phillipsite tuff. Ing. Chim. Ital. 19 (5–6):41–45
Pansini, M., Colella, C. (1989) Lead pollution control by zeolite. Mat. Eng. l:623–630
Pansini, M., Colella, C. (1990) Dynamic data on lead uptake from water by chabazite. Desalination 78: 287–295
Pansini, M., Colella, C., de' Gennaro, M. (1991) Chromium removal from water by ion exchange using zeolite. Desalination 83: 145–157
Pansini, M., Colella, C. (1991) Optimization of the process of Cr3+ removal from wastewalers by direct addition of natural zeolites. Proc. I Convegno Naz. di Scienza e Tecnologia delle Zeoliti, Colella, C. (ed.) De Frede Napoli, pp. 131–137
Pansini, M., Colella, C., de' Gennaro, M., Langella, A. (1992) Natural zeolites in environment preservation: an innovative strategy for chromium removal. In: Proc. 9th International Zeolite Conference, von Ballmoos, R., Higgins, J.B., Treacy, M.M.J. (eds.) Butterworth-Heinemann, Boston, pp. 215–222
Pansini, M., Colella, C., Caputo, D., de' Gennaro, M., Langella, A. (1996) Evaluation of phillipsite as cation exchanger in lead removal from water. Micropor. Mater., 5: 357–364
Papachristou, P., Haralambous, K.J., Loizidou, M., Spyrellis, N. (1993) Studies on nickel removal from aqueous solutions. J. Environ. Sci. Health A28(1):135–142
Patterson, J.W. (1975) Wastewater treatment technology, Ann Arbor Science Publishers, Ann Arbor, MI (USA)
Pillay, K.K.S. (1982) Radiation effects on ion exchange materials used in waste managements. AIChE Symp. Ser. 78, 213: 33–40
Robinson, S.M., Begovich, J.M., Brown, Jr., C.H., Campbell, D.O., Collins, E.D. (1987) Treatment of radioactive wastewaters by chemical precipitation and ion exchange. AIChE Symp. Ser. 83, 259:52–65
Robinson, S.M., Kent, T.E., Arnold, W.D. (1995) Treatment of contaminated wastewater at Oak Ridge national laboratory by zeolites and other ion exchangers. Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420, pp. 579–586. Int. Comm. Nat. Zeol
Santiago, I., Worland, V.P., Cazares-Rivera, E., Cadena, F. (1992) Adsorption of hexavalent chromium onto tailored zeolites. 47th Purdue Industrial Waste Conference Proceedings, Lewis Publisher, Inc., Chelsea, Michigan 48118:699–710
Semmens, M.J., Wang, M.J., Booth, A.C. (1977) Nitrogen removal by ion exchange: Biological regeneration of clinoptilolite. J. Water Pollut. Control Fed. 49 (12):2431–2444
Semmens, M.J., Martin, W.P. (1988) The influence of the pretreatment on the capacity and selectivity of clinoptilolite for metal ions. Water Res. 22: 537–542
Sersale, R., Frigione, G. (1983) Utilization of the quarry dust of the Neapolitan yellow tuff for the manufacture of blended cements. Chim. Ind., Rome 65: 479–481
Sersale, R., Frigione, G. (1985) Blended cements manufactured with activated zeolitic additions. Chim. Ind., Rome 67: 537–541
Sherry, H.S. (1969) The ion exchange properties of zeolites. In: “Ion Exchange; a series of advance”. Marinsky, J.A. (ed.) vol. 2, Marcel Dekker, New York, pp. 89–133
Siemens, D.H., Knowlton, D.E., Shupe, M.W. (1982) Three Mile Island zeolite vitrification demonstration program. AIChE Symp. Ser. 78, 213: 41–43
Stegemann, J.A., Coté, P.L. (1992) A proposed protocol for evaluation of solidified waste. In: Proc. Cement Industry Solutions to Waste Management, October 1992, Calgary, Piggott, R.W. (ed.) CPCA, Toronto (Canada), pp. 1–12
Tsitsishvili, G.V., Andronikashvili, T.G., Kirov, G.N., Filizova, L.D. (1992) Natural zeolites. Ellis Horwood, Chichester, pp. 235–262
US Environmental Protection Agency (1986) Test methods for evaluating solid waste, SW-846. Office of solid waste and emergency response, Washington DC
Vaniman, D.T., Bish, D.L. (1995) The importance of zeolites in the potential high-level radioactive waste repository at Yucca Mountain, Nevada. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420, pp. 533–546. Int. Comm. Nat. Zeol
Wilson, T.E., Riddell, M.D.R. (1975) Studies of the removal of ammonia nitrogen by ion exchange. AIChE Symp. Ser. 71, 151:118–125
Zamzow, M.J., Eichbaum, B.R., Sandgren, K.R., Shanka, D.E. (1990) Removal of heavy metals and other cations from wastewaters using zeolites. Sep. Sci. Tech. 25: 1555–1569
Zamzow, M.J., Murphy, J.E. (1992) Removal of metal cations from water using zeolites. Sep. Sci. Tech. 27: 1969–1984
Zamzow, M.J., Schultze, L.E. (1995) Treatment of acid mine drainage using natural zeolites. Natural Zeolites '93, Ming, D.W., Mumpton, F.A. (eds.) Brockport, New York 14420, pp. 405–413 Int. Comm. Nat. Zeol.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Pansini, M. Natural zeolites as cation exchangers for environmental protection. Mineral. Deposita 31, 563–575 (1996). https://doi.org/10.1007/BF00196137
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00196137