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This article discusses the measurement of hydrogen storage capacity in Ca72Mg28 alloy that has been produced by melt spinning. The alloy has an amorphous structure in which there is an assumption of hydrogen storage of acceptable concentration. The research is to analyse the possibility of desorption of the gas without recrystallization of the alloy. Subsequently, the problem of reversible hydrogen storage is examined at temperatures between 410–450 °C in the pressure range 0 to 3.5 MPa. This paper deals with the indirect determination of the amount of heat generated in the absorption of hydrogen by using the calorimetric method. In the conclusion there is a comparison of the storage capacity of hydrogen in the amorphous and crystalline structure of the alloy.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
103--110
Opis fizyczny
Bibliogr. 11 poz., fig.
Twórcy
autor
- Department of Power Engineering, Technical University of Košice, Letná 9, 040 01 Košice, Slovakia
autor
- Department of Power Engineering, Technical University of Košice, Letná 9, 040 01 Košice, Slovakia
autor
- Department of Power Engineering, Technical University of Košice, Letná 9, 040 01 Košice, Slovakia
- Department of Power Engineering, Technical University of Košice, Letná 9, 040 01 Košice, Slovakia
autor
- Slovak Academy of Sciences in Košice, Watsonova 47, 040 01 Košice, Slovakia
autor
- Department of Power Engineering, Technical University of Košice, Letná 9, 040 01 Košice, Slovakia
autor
- Slovak Academy of Sciences in Košice, Watsonova 47, 040 01 Košice, Slovakia
autor
- Department of Power Engineering, Technical University of Košice, Letná 9, 040 01 Košice, Slovakia
Bibliografia
- 1.An C., Liu G., Li L., Wang Y., Wang C. Chen, Wang Y., Jiao L. and Yuan H.. In situ synthesized one-dimensional porous Ni@C nanorods as catalysts for hydrogen storage properties of MgH2. Nanoscale, 6, 2014, 3223–3230.
- 2.Huot J., Liang G. and Schulz R. Magnesium-based nanocomposites chemical hydrides. J. Alloys Compd., 353, 2003, L12–L1.
- 3.Liu Y., Pan H., Gao M., Zhu Y., Lei Y. and Wang Q. The effect of Mn substitution for Ni on the structural and electrochemical properties of La0.7Mg0.3Ni2.55−xCo0.45Mnx hydrogen storage electrode alloys. Int. J. Hydrogen Energy, 29, 2004, 297–305.
- 4.Ouyang L.Z., Qin F.X. and Zhu M. The hydrogen storage behavior of Mg3La and Mg3LaNi0.1. Scr. Mater., 55, 2006, 1075–1078.
- 5.Ouyang L.Z., Dong H.W. and Zhu M. Mg3Mm compound based hydrogen storage materials. J. Alloys Compd., 446, 2007, 124–128.
- 6.Ouyang L.Z., Yang X.S., Dong H.W., Zhu M. Structure and hydrogen storage properties of Mg3Pr and Mg3PrNi0.1 alloys. Scr. Mater., 61, 2009, 339–342.
- 7.Si T.Z., Cao Y., Zhang Q.G., Sun D.L., Ouyang L.Z. and Zhu M. Enhanced hydrogen storage properties of a Mg-Ag alloy with solid dissolution of indium: a comparative study, J. Mater. Chem. A, 3, 2015, 8581–8589.
- 8.Wang H.R., Wang W. and Gao J.O. Materials Letters, 64, 2010, 219–221.
- 9.Xiao X.Z., Xu C.C., Shao J., Zhang L.T., Qin T., Li S.Q., Ge H.W., Wang Q.D., Chen L.X. Remarkable hydrogen desorption properties and mechanisms of the Mg2FeH6@MgH2 core-shell nanostructure. J. Mater. Chem. A, 3, 2015, 5517–5524.
- 10.Zhao Z., Zhu Y. and Li L. Efficient catalysis by MgCl2 in hydrogen generation via hydrolysis of Mg-based hydride prepared by hydriding combustion synthesis. Chem. Commun., 48, 2012, 5509–5511.
- 11.Zhu M., Lu Y., Ouyang L. and Wang H. Thermodynamic tuning of Mg-based hydrogen storage alloys: a review, Materials, 6, 2013, 4654–4674.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2769acd0-240e-4e77-b8f2-0470c21ffe37
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