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P. Suskis, A. Andreiciks, I. Steiks, O. Krievs and J. Kleperis

.energy.gov/hydrogenandfuelcells 9. Grinberga, L., Kleperis, J., Bajars, G., et al. (2008). Estimation of hydrogen transfer mechanisms in composite materials. Solid State Ionics, 179, 42-45. 10. Lesnicenoks, P., Berzina, A., Grinberga, L., & Kleperis, J. (2012). Research of hydrogen storage possibility in natural zeolite. Intern. Sci. J. for Alternative Energy and Ecology (ISJAEE), 9, 16-20. 11. Kleperis, J., Lesnicenoks, P., Grinberga, L., Chikvaidze, G., & Klavins, J. (2013). Zeolite as material for hydrogen storage in transport applications. Latv. J. Phys. Tech

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S. Ghadiri, R. Nabizadeh, A. Mahvi, S. Nasseri, A. Mesdaghinia and S. Talebi

). Effects of activated carbon characteristics on the simultaneous adsorption of aqueous organic micropollutants and natural organic matter. Water Res. 39 , 1663-1673. doi:10.1016/j.watres.2005.01.029 Malek, N. N. (2007). Surfactant modified zeolite Y as a sorbent for some chromium and arsenic species in water. Faculty of Science. Universiti Teknologi Malaysia. Tashauoei, H., Attar, M. M., Amin, M. M., Kamali, M., Nikaeen, M. & Dastjerdi, M. V. (2010). Removal of cadmium and humic acid from aqueous solutions using

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Jozef Mačala, Iveta Pandová, Taťána Gondová and Katarína Dubayová

References Ackley M.W., Ralph T.Y., 1991 - Ind. Eng. Chem. Res. 30. Andrade-Eiroa A., et al., 2000 - Analusis 28. 148 p. Barrer R.M., 1987 - Zeolites and Clay Minerals as sorbent and Moleculars Sieves, Academic Press, London, New York, San Francisco. Countway R.E., 2003 - Polycyclic aromatic hydrocarbon distributions and associations with Organicmatter in surface watwers of the York River, VA Estuary. Organic Geochemistry 34. p. 209

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Meiry G. F. Rodrigues, Antonielly S. Barbosa, Ana C. F. Coriolano, Edjane F. B. Silva and Antonio S. Araujo

References [1] LAWTON S.L., FUNG A.S., KENNEDY G.J., ALEMANY L.B., CHANG C.D., HATZIKOS G.H., LISSY D.N., RUBIN M.K., TIMKEN H.K.C, STEUERNAGEL S., WOESSNER D.E., J. Phys. Chem., 100 (1996), 3788. [2] CORMA A., CORELL C., FORNES V., KOLODZIEJSKI W., PEREZ-PARIENTE J., Zeolites, 15 (1995), 576. [3] DELITALA C., CADONI E., DELPIANO D., MELONI D., MELIS S., FERINO I., Micropor. Mes., 110 (2008), 197. [4] KUMAR G.S., SARAVANAMURUGAN S., HARTMANN M., PALANICHAMY M., MURUGESAN V., J. Mol. Catal. A

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Magdalena Król, Kamila Brylewska, Arkadiusz Knapik, Kamil Kornaus and Włodzimierz Mozgawa

100322014I. 4. Liew, Y.M., Kamarudin, H., Mustafa Al Bakri, A.M., Luqman, M., Khairul Nizar, I., Ruzaidi, C.M. & Heah, C.Y. (2012). Processing and characterization of calcined kaolin cement powder. Constr. Build. Mater. 30, 794–802. DOI: 10.1016/j.conbuildmat.2011.12.079. 5. San Cristóbal, A.G., Castelló, R., Martín Luengo, M.A. & Vizcayno, C. (2010). Zeolites prepared from calcined and mechanically modified kaolins: a comparative study. Appl. Clay Sci. 49(3), 239–246. DOI: 10.1016/j.clay.2010.05.012. 6. Xu, H. & van Deventer, J.S.J. (2002

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A. Puziy, O. Poddubnaya, B. Gawdzik, M. Sobiesiak, C. Reinish, M. Tsyba, T. Segeda and M. Danylenko

). A. M. Puziy, O. I. Poddubnaya, J. A. Ritter, A. D. Ebner, C. E. Holland, Carbon 39, 2313 (2001). P. I. Ravikovich, A. V. Neimark, Langmuir 22, 11171 (2006). F. Delprato, L. Delmotte, J. L. Guth and L. Huve, Zeolites 10, 546 (1990). M. Sobiesiak, B. Gawdzik, A. M. Puziy, O. I. Poddubnaya, Chromatographia 64, 175 (2006).

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Agnieszka Grela, Michał Łach, Tomasz Bajda and Janusz Mikuła

References Aiello, R., Giordano, G., & Testa, F. (2002). Impact of zeolites and other porous materials on the new technologies at the beginning of the new millennium; Elsevier Science. Armbruster, T., & Gunter, M. E. (2001). Crystal structures of natural zeolites. In D.L. Bish & D.W. Ming (Eds) Natural Zeolites: Occurrence, Properties, Applications. Washington, D.C., pp.1-67. Reviews in Mineralogy and Geochemistry. Belviso, C., Cavalcante, F., & Fiore, S. (2010). Synthesis of zeolite from Italian coal fly ash

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Raluca Proscanu, Vasile Matei, Rodica Ganea, George Proscanu and Chol Ryong Jang

45-54 (2007) [5].Y. Wei, Z. Liu, G. Wang, Y. Qi, L. Xu, P. Xie and Y. He, Stud. Surf. Sci. Catal. 158 1223-1230 (2005). [6].F.C.Jentof and B.C.Gales, Top.Catal. 4 , 1-13 (1997) [7]. J. Cejka, H. van Bekkum, A. Corma, F. Schüth (Eds), Introduction to Zeolite Science and Practice , 3rd Revised Edition, 168 1-105 (2007) [8]. M.Cruceanu, Zeolitic molecular sieves ( in Romanian), ed. Stiintifica si Enciclopedica, Bucuresti 1986, pp.257-264 [9].C.J.Y. Houssin, Nanoparticles in

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P. Lesnicenoks, L. Grinberga and J. Kleperis

: State-of-the-Art and Future Perspective. The Netherlands, Institute for Energy - JRC IE. 6. Bogdanov, B., Georgiev, D., Angelova, K., & Yanevak (June 4-5, 2009). Proceedings Int. Sc.conf. on: Economics and Society development on the Base of Knowledge, Stara Zagora, Bulgaria. 7. Rocks in your Gas Tank. NASA Everyday News: http://www.nasa.gov 8. Tschernich, R.W. (1992). Zeolites of the World. Geoscience Press. 9. Lesnicenoks, P., Sivars, A., Grinberga, L., & Kleperis, J. (2012). IOP Conf. Ser.: Mater. Sci

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N Cvetkovic, B Adnadjevic and M Nikolic

. Yu and M. Mizuno: Influence of sulphur dioxide on catalytic removal of nitric oxide over copper ion-exchanged ZSM-5 zeolite; Appl. Catal. 69 (1991) 15-19. 9. Sazonova, N.N., O.V. Kumova, E.V. Rebrov, N.A. Simakov, V.A. Kulikovskaja, V.A. Rogov, R.V. Olkhov and G.B. Barannik: Catalytic and adsorptive properties of a Cu-ZSM-5 catalyst synthetized by solid-phase method; React. Kinet. Catal. Lett. 60 (1997) 313-321. 10. Adnadjevic, B.: New challenges in catalysis. Review of basic achievements in the development of