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Corina Ioana Neamţu, Elena Maria Pică and Tiberiu Rusu

References Baker, H.M., Massadeh, A.M., Younes, H.A. (2009) Natural Jordanian zeolite: removal of heavy metal ions from water samples using column and batch methods, Environmental Monitoring and Assessment, 157, p.319-330. Gunay, A., Arslankaya, E., Tosun, I. (2011) Lead removal from aqueous solution bz natural and pretreated clinoptilolite: Adsorption equilibrium and kinetics, Journal of Hazardous Materials, 146, p.362-371. Ismael, I.S., Melegy, A., Kratochvil, T. (2012) Lead removal from aqueous solution by

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A. Kausar

(2013) 48-62. 9. Muntha S. T., Kausar A., Siddiq. M.: A Review on Zeolite Reinforced Polymeric Membranes: Salient Features and Applications, Polym. Plast. Technol. Engineer. (2016) DOI:10.1080/03602559.2016.1185631. 10. Rutkowska M., Chmielarz L., Macina D., Dudek B., Van Oers C., Cool P.: Hierarchical materials originated from mesoporous MCF material and Beta zeolite nanoparticles-synthesis and catalytic activity in N 2 O decomposition, J. Chin. Adv. Mater. Soc. 1 (2013) 48-55. 11. Yao J., Wang H.: Zeolitic imidazolate framework composite membranes

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J. Kleperis, P. Lesnicenoks, L. Grinberga, G. Chikvaidze and J. Klavins

. (2010). The Study of Adsorption of Hydrogen on Zeolites. Progress in Chemistry, 22 , 248-254. 8. Langmi H.W., & McGrady, G.S. (2007). Non-hydride systems of the main group elements as hydrogen storage materials. Coord. Chem. Rev., 251 , 925-935. 9. Broom, D.P. (2011). Hydrogen Storage Materials: The Characterisation of Their Storage Properties . London: Springer-Verlag. 10. Efstathiou, A.M., Borgstedt, E.R., Suib, S.L., & Bennett, C.O. (1992). Encapsulation of molecular hydrogen in ion-exchanged zeolites at 1 atm

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Arkadiusz Derkowski and Marek Michalik

References AMRHEIN CH., HAGINA G.H., KIM T.S., MOSHER P.A., GAGAJENA R.C., AMANIOS T., TORRE DE LA L., 1996: Synthesis and properties of zeolites from fly ash. Environmental Science and Technology 30, 735-742. ARMSTRONG J.A., DANN S.E., 2000: Investigation of zeolite scales formed in the Bayer process. Microporous Mesoporous Materials 41, 89-97. BAERLOCHER CH., MEIER W.M., OLSON D.H., 2001: Atlas of zeolite framework types. Str. Comm. IZA. 5th Revised Edition, Elsevier, London

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P.G. Kougias, I.A. Fotidis, I.D. Zaganas, T.A. Kotsopoulos and G.G. Martzopoulos

-60. Chen Y., Cheng J.J., and Creamer K.S., 2008. Inhibition of anaerobic digestion process:Areview. Biores. Technol., 99, 4044-4064. Jung J.-Y., Chung Y.-C., Shin H.-S., and Son D.-H., 2004. Enhanced ammonia nitrogen removal using consistent biological regeneration and ammonium exchange of zeolite in modified SBR process. Water Res., 38, 347-354. KotsopoulosT.A.,Fotidis I.A.,TsolakisN., andMartzopoulos G.G., 2009. Biohydrogen production from pig slurry in a CSTR reactor system with mixed cultures under hyper-thermophilic temperature (70

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Jozef Oravec and Adriana Estokova

REFERENCES [1] KARAKURT C., TOPÇU İ. B. Effect of blended cements with natural zeolite and industrial by-products on rebar corrosion and high temperature resistance of concrete. Construction and Building Materials. 2012, 35 , 906-911. [2] NAJIMI M., SOBHANI J., AHMADI B., SHEKARCHI M. An experimental study on durability properties of concrete containing zeolite as a highly reactive natural pozzolan. Construction and Building Material. 2012, 35 , 1023-1033. [3] HASANBEIGI A., PRICE L., LIN E. Emerging energy-efficiency and CO 2 emission

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Tamás Kristóf

REFERENCES [1] Auerbach, S.M.; Carrado, K.A.; Dutta, P.K. (Eds.): Handbook of Zeolite Science and Technology (Marcel Dekker, New York) 2003 ISBN: 0-8247-4020-3 [2] Xu, X.; Yang, W.; Liu, J.; Chen, X.; Lin, L.; Stroh, N.; Brunner, H.: Synthesis and gas permeation properties of an NaA zeolite membrane, Chem. Commun. 2000 0 , 603-604 DOI: 10.1039/B000478M [3] Aoki, K.; Kusakabe, K.; Morooka, S.: Separation of gases with an A-type zeolite membrane, Ind. Eng. Chem. 2000 39 , 2245-2251 DOI: 10.1021/ie990902c [4] Okamoto, K.; Kita, H

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K. Bohács, J. Faitli, L. Bokányi and G. Mucsi

REFERENCES [1] J. Xie, S. Kaliaguine, Zeolite ball milling as a means of enhancing the selectivity for base catalyzed reactions 148 , 415-423 (1997). [2] P.A. Zielinski, A. Van Neste, D.B. Akolekar, S. Kaliaguine, Effect of high-energy ball milling on the structural stability, surface and catalytic properties of small-, medium- and large-pore zeolites, Microporous Mater. 5 , 123-133 (1995). [3] K. Akçay, A. Sirkecioğlu, M. Tatlıer, Ö.T. Savaşçı, A. Erdem-Şenatalar, Wet ball milling of zeolite HY, Powder Technol. 142 , 121-128 (2004). [4

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Khouloud Khachlouf, Houda Hamed, Radhouane Gdoura and Ahmed Gargouri

References Bergero D., Rumello G., Sara C., D ’ Angelo A. (1997). Effect of natural clinoptilolite or phillipsite in the feeding of lactating dairy cows. In: Natural zeolites sofia’95, Kirov G., Filizova L., Petrov O. (eds). Pensoft, Sofia, pp. 75–82. Boisclair Y., Grieve D.G., Stone J.B., Allen O.B., Macleod G.K. (1986). Effect of pre-partum energy, body condition, and sodium bicarbonate on production of cows in early lactation. J. Dairy Sci., 69: 2636–2647. Bosi P., Creston D., Casin L. (2002). Production performance of dairy cows after the

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Hossein Taherifar, Sima Rezvantalab, Fatemeh Bahadori and Omid Sadrzadeh Khoei

. 116–123. H assanpour A slania S., G hafourianb H., A rdakanic M.R., T orabid S. 2013. Feasibility study of reducing the total dissolved solids (TDS) from contaminated water in radish plant ( RaphanusSativus ) using nano activated carbon and zeolite. Journal of Nano Structures. Vol. 3. Iss. 2 JNS 3 p. 219–225. J ing G., W ang X., Z hao H. 2009. Study on TDS removal from polymer-flooding wastewater in crude oil: extraction by electrodialysis. Desalination. Vol. 244 p. 90–96. M ohammadesmaeili F., K abiri B.M., A bbaszadegan M., F ox P