Title :
Hydriding and dehydriding properties of HCS Li-Mg-N-H systems
Author :
Kim, Byoung-Goan ; Byoung-Goan Kim ; Hong, Seong-Hyeon ; Han, Jeong-Seb
Author_Institution :
Korea Inst. of Ceramic Eng. & Technol. (KICET), South Korea
Abstract :
Mg and Zr-based AB2 hydride composite was prepared by hydriding combustion synthesis (HCS) and the hydriding-dehydriding properties of HCS Mg-(20, 40 wt.%) AB2 products were extensively examined. The dehydriding onset temperatures of the HCS Mg-20AB2 and Mg-40AB2 composites were 533 K and 493 K, respectively, which were lower than that of the MgH2. It is suggested that the well-dispersed Zrbased AB2 phase in a Mg composite prepared by HCS plays a crucial role in significantly improving its kinetic properties. Especially, the HCS Mg-20AB2 composite showed fully activated hydrogenation within the 8 th cycle and reached a saturated H2 absorption capacity of 5.7 wt.% at 573 K in 10 min. In addition, the hydrogen capacity did not show any significant decrease even after 86 cycles. These results display a potential excellence of HCS processing in preparing Mg-based hydrogen storage.
Keywords :
combustion synthesis; composite materials; crystal microstructure; desorption; hydrogen storage; hydrogenation; magnesium; zirconium alloys; zirconium compounds; H2 absorption capacity; Mg-Zr0.55Ti0.45V0.54Mn0.24Ni0.88Co0.16Cr0.16; Zr-based AB2 phase; activated hydrogenation; combustion hydriding synthesis; dehydriding onset temperature; hydride composite; hydrogen storage; temperature 573 K; time 10 min;
Conference_Titel :
Nanotechnology (IEEE-NANO), 2010 10th IEEE Conference on
Conference_Location :
Seoul
Print_ISBN :
978-1-4244-7033-4
Electronic_ISBN :
1944-9399
DOI :
10.1109/NANO.2010.5698039
