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Piotr Decyk, Andrzej B. Więckowski, Lidia Najder-Kozdrowska and Iveta Bilkova

. H., Hou, Z. Y., Zhu, B., Lou, H., & Zheng, X. M. (2006). Synthesis of dimethyl ether (DME) on modified HY zeolite and modified HY zeolite-supported Cu-Mn-Zn catalysts. Appl. Catal. A-Gen ., 304 , 49–54. DOI: 10.1016/j.apcata.2006.02.019. 4. Padlyak, B. V., Wojtowicz, W., Adamiv, V. T., Burak, Ya. V., & Teslyuk, I. M. (2010). EPR spectroscopy of the Mn 2+ and Cu 2+ centres on lithium and potassium-lithium tetraborate glasses. Acta Phys. Pol. A , 117 (1), 122–125. 5. Guskos, N., Glenis, S., Typek, J., Żołnierkiewicz, G., Berczyński, P., Wardal, K

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Alvydas Zagorskis and Rasa Vaiškūnaitė

. Biotechnol. Lett., 24, 1269-1275. DOI: 10.1023/A:1016273828254. Cheng H., Reinhard M., 2006. Sorption of trichloroethylene in hydrophobic micropores of dealuminated y zeolites and natural minerals. Environ. Sci. Technol., 40, 7694-7701. DOI: 10.1021/es060886s. Converti A., Del Borghi M., Zilli M., 1997. Evaluation of phenol diffusivity through Pseudomonas putida biofilms: application to the study of mass velocity distribution in a biofilter. Bioprocess Eng., 16, 105-114. DOI: 10.1007/s004490050296. Delhomenie M.C., Bibeau L

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Barbara Muir, Magdalena Wołowiec, Tomasz Bajda, Paulina Nowak and Piotr Czupryński

References Alkan, M., Hopa, C., Yilmaz, Z., & Guler, H. (2005). The effect of alkali concentration and solid/liquid ratio on the hydrothermal synthesis of zeolite NaA from natural kaolinite. Microporous and Mesoporous Materials, 86, 176-184. DOI: 10.1016/j.micromeso.2005.07.008. Almeida, I. L., Antoniosi Filho, N. R., Alves, M. I., Carvalho, B. G., & Coelho, N. M. (2012). Removal of BTEX from aqueous solution using Moringaoleifera seed cake. Environmental Technology, 33, 1299-1305. DOI: 10

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Zenon Sarbak, Grażyna Fabiś and Sławomir Binkowski

References Ward J. W.: Stud. Surf. Sci. and Catal. , 1983 , 16 , 587. Valyon J., Meszaros A. K.: Zeolites; Facts, Figures, Future, Elseviere, Amsterdam, 1989 , 1015. Ali M. A., Tatsumi T., Masuda T.: Appl. Catal. A , 2002 , 233 , 77. Ciciszwili G. W.: Zeolity naturalne , 2000 , 60 , 193. Beck L., Haw J. H.: J. Phys. Chem. , 1995 , 99 , 1076. de Menorval L. C., Buckermann L. C., Figures W.: J

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Anna Hanusová

References [1] WOO-HANG, K., CHUNG-HWAN, K. Zeolite filtration for ammonium nitrogen removal in drinking water treatment. Journal of environmental science international, Vol.12, Issue 3, 2003, pp.281-286. ISSN: 1225-4517 [2] BALCI, S., DINÇEL, Y. Ammonium ion adsorption with sepiolite: use of transient uptake method Chemical Engineering and Processing 41, 2002, pp. 79-85 [3] CHMIELEWSKÁ, E. Designing clinoptiloliterich tuff columns for adsorptive filtration of water with enhanced ammonium concentration Fresenius

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Antonio Lofù, Piero Mastrorilli, Maria Michela Dell’Anna, Matilda Mali, Raffaello Sisto and Rodolfo Vignola

References Barrer, R.M. (1978). Zeolites and Clay Minerals as Sorbents and Molecular Sieves , London: Academic Press, London 1978. Bowman, R.S. & Helferich, R. (2001). Production and article of iron/surfactant-modified zeolite pellets to retain and destroy water pollutants, U.S. Patent No. 6,261,986 B1, 17 July 2001. Washington, D.C.: U.S. Patent and Trademark Office. Byrne, R.H., Luo, Y.-R. & Young, R.W. (2000). Iron hydrolysis and solubility revisited: observations and comments on iron hydrolysis characterizations, Marine Chemistry , 70, pp

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Michal Melicher, Ján Derco, Lenka Sumegová and Miloslav Drtil

References Fujita H, Izumi Y, Sagehashi M, Fuji T, Sakoda A (2004) Adsorption and decomposition of water-dissolved ozone on high silica zeolites. Wat. Res. 38: 159–165. Chudoba J, Tuček F, Zeis K (1977) Biochemister Abbau von Benythiazolderivaten. Acta Hydrochchim. Hydrobiolol. 4(4): 494–498. Gold L, Slone T, Stern B, Bernstein L (1985) Comparison of target organs of carcinegenity for mutagenic and non-mutagenic checals. Mutat. Res. 296: 74–100. Greenberg AE, Clesceri LS, Eaton A (2005) Eds. Standard Methods for the Examination of Water

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Karolina Maduna Valkaj, Vesna Tomašić, Andrea Katović and ElżBieta Bielańska

1. Introduction The copper containing MFI zeolites (Cu-MFI) have been proven to be very active in catalytic reduction of NO x by ammonia or hydrocarbons as well as in the direct decomposition of NO to nitrogen and oxygen [ 1 - 16 ]. Unfortunately, in the presence of water vapor or sulphur dioxide in the feed, Cu-MFI catalysts suffer from deactivation under high temperature conditions [ 17 ]. In the literature several different methods of preparation of Cu-MFI catalysts are described. The methods range from classical ion exchange to solid state exchange

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Oleksii Hunyak, Khrystyna Sobol, Taras Markiv and Volodymyr Bidos

, E., Claisse, P., 2016. Strength, durability and leaching properties of concrete paving blocks incorporating GGBS and SF. Construction and Building Materials, 113, 273-279. DOI: 10.1016/j.conbuildmat.2016.02.152 Markiv, T., Sobol, K., Franus, M., Franus, W., 2016. Mechanical and durability properties of concretes incorporating natural zeolite. Archives of Civil and Mechanical Engineering, 16(4), 554–562. DOI:10.1016/j.acme.2016.03.013 Nagrockiene, D., Girskas, G., 2016. Research into the properties of concrete modified with natural zeolite addition

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Z. Owsiak and P. Czapik

.A.T.M. Broekmans, “Structural properties of quartz and their potential role for ASR”, Materials Characterization 53, 129-140 (2004). [5] J.M. Ponce and O.R. Batic, “Different manifestation of the alkali-silica reaction in concrete according to the kinetics of the reactive aggregate”, Cement & Concrete Research 36, 1148-1156 (2006). [6] S. Diamond, “Cement pastes: rheology and evolution of properties and structures, Proc. 7th ICCC Paris 4, 113-123 (1980). [7] X. Feng and N. Feng, “Effect of natural zeolite on alkali-silica reaction