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S.M. Shin, D.J. Shin, G.J. Jung, Y.H. Kim and J.P. Wang

, M.I. Aly, Int. J. Miner. Process. 121 , 31-38 (2013). [8] P.V.M. Dixini, V.G. Celante, M.F.F. Lelis, M.B.J.G. Freitas, J. Pow. Sour. 260 , 163-168 (2014). [9] T. Kuzuya a, S. Hirai, V.V. Sokolov, Sep. Purif. Technol. 118 , 823-827 (2013). [10] J. Nan, D. Han, M. Yang, M. Cui, X.H.L. Li, S. Xu, Z. Ju, F. Wu, Hydrometallurgy 84 , 75-80 (2006). [11] J.P. Wang, S.M. Shin, S.H. Joo, D.W. Lee, J.Y. Yun, J. Korean Pow. Metal. Int. 20 , 60-67 (2013). [12] J.W. Lee, D.W. Kim, S.T. Jang, J. Korean Pow. Metal. Int. 21 , 131-136 (2014

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Olaitan L Akanji and Andrei V Kolesnikov

References 1. Momirian, M. & Vesiroglu,T.N, Renewable Sustainable Energy (2002), Rev6, 141-179. Doi:10.1016/j. ijhydene.2011.01.008.6. 2. Jemni, A. & Nasrallah, B.S. Study of 2- Dimensional Heat transfer and Mass transfer during absorption in a metal - Hydrogen Reactor.Int.j.Hydrogen Energy(1995),20(1), 43-52 .Doi:10.1016/0360-3199(93) E0007-8. 3. Aldas, K., Mat, M.D. & Kaplan, Y. Three Dimensional mathematical model for absorption in a metal hydride bed. Int. J.Hydrogen Energy (2002), 27(10), 1049

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E. Łunarska, O. Chernyayeva and D. Lisovytskiy

., Lunarska E.: The effect of hydrogen in the shear modulus of polycrystalline aluminium, Technical Physics Letters , 32 (2006) pp. 55-57. Christodoulou L., Clarke I. A.: Hydrogen effects on fracture toughness of XD titanium aluminide. Hydrogen Effects on Materials Behavior. N. R. Mondy A. W. Thompson [eds.], Mineral, Metals & Materials Soc., 1990, pp. 515-522. Trefilov V. I., Timofeeva I. I., Klochkov L. I., Morozov I. A., Morozova R. A.: Effects of temperature change and hydrogen content on titanium hydride crystal

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

. Sci., 50 (3), 59-64. 12. Hydrogen Pathway: Cost Analysis: www.ika.rwthaachen. de/r2h/index.../Hydrogen_Pathway:_Cost_Analysis 13. Vanags, M., Kleperis, J., & Bajars, G. (2011). Electrolysis model development for metal/electrolyte interface: Testing with microrespiration sensors. Intern. J. of Hydrogen Energy, 36, 1316-1320. 14. Vanags, M., Kleperis, J., & Bajars, G. (2012). Water Electrolysis with Inductive Voltage Pulses. In: Electrolysis, Ch. 2 (ed-s: Janis Kleperis and Vladimir Linkov), InTech, pp.19-44, doi.org/10

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P. Pokorný, M. Kouřil, M. Martínek and S. Eriksen

. Lyon, S. B. Corrosion of Tantalum and Niobium and their Alloys. Shreir's Corrosion.   2009 , 3 , 2135-2150. Šušic, M.; et al. Absorption of Hydrogen by Palladium-coated Tantalum Powder. Int. J. Hydrogen Energy.   1994 , 19 (9), 751-755. Herlach, D. The Hydrogen Embrittlement of Metals. Phys. Rev. B: Condens. Matter.   2000 , 289 , 443-446. Spulak, R. G.; et al. X-Ray Difraction Study of Phase Transition in Tantalum Hydride Films. J. Less-Common Met.   1990 , 166 , 95

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Ion Vasile

rechargeable batteries . Wiley-Vch Verlag GmbH & Co, 2009. [10] Berndt, D., Maintenance-free batteries: lead-acid, nickel/cadmium, nickel/hydride: a handbook of battery technology , Published by Research Studies Press, Taunton, 1993. [11] http://www.instructables.com/id/Web-Browser-Arduino-Simulation/ [12] https://learn.adafruit.com/adafruit-data-logger-shield .

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

References 1. US Department of Energy (2006) Planned Program Activities for 2005-2015, website address (May 2012): http://www1.eere.energy.gov/hydrogenandfuelcells/mypp/ 2. Dinca, M., & Long, J.R. (2008). Hydrogen Storage in Microporous Metal-Organic Frameworks with Exposed Metal Sites. Angew. Chem. Int. Ed., 47, 6766-6779. 3. Sakintuna, B., Lamari-Darkrim, F., & Hirscher, M. (2007). Metal hydride materials for solid hydrogen storage: a review. Intern. J. of Hydrogen Energy, 32 , 1121

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Hamideh Abnoos, Masoud Fereidoni, Naser Mahdavi-Shahri, Farhang Haddad and Razieh Jalal

opinion of the panel on contaminants in the food chain. EFSA Journal 654 : 1-76. Al-Momani FA, Massadeh AM. (2005). Effect of different heavy-metal concentrations on Drosophila melanogaster larval growth and development. Biol Trace Elem Res 108 : 271-277. Anderson D. (2003). Introduction to heavy metal monitoring. Centre for Ecology and Hydrology, Natural Environment Research Council , pp. 1-9. Badre, NH, Martin ME, Cooper RL. (2005). The physiological and behavioral effects of carbon dioxide on Drosophila

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A. Szoka, G. Gajowiec, A. Zieliński, W. Serbiński, J.-M. Olive and A. Ossowska

hydrogen on the circumferential mechanical properties of Zircaloy-4 cladding. Nucl Eng Design 2006;236:1867-73. 17. Bertolino G., Meyer G., Perez Ipiña J., Degradation of the mechanical properties of Zircaloy-4 due to hydrogen embrittlement. J Alloys Comp 2002;330-332:408-13. 18. Zielinski A., Degradation of some hydride-forming metals and their alloys. In: Goltsov VA. Editor. Progress in Hydrogen Treatment of Materials, Donetsk, Ukraina & Coral Gables, USA: Internal Association for Hydrogen Energy; 2001, 451-472. 19

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M. Cagala, E. Mazancová, P. Lichý, J. Beňo, M. Břuska and N. Špirutová

-877. Schumann, V. H. (1972). Neue Hütte , 17, 605-609. Mazancová, E. (2007). New Material Types for Automotive Industry - Physical Engineering Properties of High Strength Material Alloyed With Manganese and of Metal Hydrides Alloys for Hydrogen Storage. (1st. ed.). Ostrava: VŠB-TU Ostrava, (in Czech). Blech, W., Phiu-On, K., Heeving, Ch. & Hirt, G. (2007). Steel Research Int. 78, 536-546. Mintz, B., Cowley, C., Talian, C., Crowther, D. N. & Abushosba, R. (2003). Mater. Sci. Tech. 19, 184