Параметри
Mechanical alloys Mg-Me (Me: Ti, Fe, Ni, Al) & Mg-Me1-Me2(Ме1:Al, Me2: Ti, Fe, Ni) with low resistance and improved kinetics of hydrogenation/dehydrogenation for hydrogen storage applications
Тип публікації :
Стаття
Дата випуску :
2018
Автор(и) :
Ershova, Olga
Dobrovolsky, V.
Solonin, Y.
Мова основного тексту :
English
eKNUTSHIR URL :
Том :
6
Випуск :
1
ISSN :
2312-3222
Початкова сторінка :
31
Кінцева сторінка :
55
Цитування :
Ershova, O., Dobrovolsky, V., Solonin, Y. (2018). Mechanical alloys Mg-Me (Me: Ti, Fe, Ni, Al) & Mg-Me1-Me2(Ме1:Al, Me2: Ti, Fe, Ni) with low resistance and improved kinetics of hydrogenation/dehydrogenation for hydrogen storage applications. French-Ukrainian Journal of Chemistry, 6(1), 31–55. https://doi.org/10.17721/fujcV6I1P31-55
Changes in MgH2 decomposition kinetics were investigated in dependence on complex doping of MgH2 by Al, Ti, Ni,and Fe. Reactive mechanochemical alloying method (RMA) was applied in the temperature descending regime. It was found that addition of Al+Ni+Ti, Al+Ti, Fe+Ti (see below) and Al+Fe elements combinations led to a lower thermal stability and, consequently, to a lowering of the temperature of hydrogen desorption onset. Whereas desorption began at temperature of 320 °C from the pure MgH2, the aditions of Al, Ni, Ti and Fe lowered the start of the desorption down to 250°C (at hydrogen pressure 0.1 MPa in the reactor). Very fast desorption kineticsprecize at 300 0C and PH 2= 0.1 MPa were observed for Mg+Me mixture in comparison with the pure Mg. Sorption capacity of investigated mechanically-alloyed composites varied from 5 to 6.5 wt. % H2. The tested materials showed a high potential as hydrogen storage alloys especially for stationary application.
Тип зібрання :
Publication
Файл(и) :
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Формат
Adobe PDF
Розмір :
2.2 MB
Контрольна сума:
(MD5):d9089f74c27f1f0b13a3c57fab4fd7a3
Ця робота розповсюджується на умовах ліцензії Creative Commons CC BY
10.17721/fujcV6I1P31-55