Hydrogen storage properties

Vehicle Parameter Expected Performance Hydrogen Storage Property... 

Zuttel, A., S. Rentsch, P. Fisher, P. Wenger, P. Sudan, Ph. Mauron, and Ch. Emmenegger, Hydrogen storage properties of LiBH4, /. Alloys Compd., 356, 515, 2003. 

Baum, L., M. Meyer, and L. Mendoza-Zelis, Hydrogen storage properties of the Mg/Fe system, Physica B, 389,189-192,2007. 

Hydrogen-storage alloys, 13 626, 627 Hydrogen storage properties, of rare earths, 14 652 Hydrogen streams, 13 461 Hydrogen sulfide, 23 568, 569, 629-638. See also H2S... 

Table 1.3 Hydrogen storage properties of intermetaUic compounds (from [12])...

Table 1.4 Hydrogen storage properties of selected high-capacity hydrides [13-22]...

V. Berube, G. Radtke, M. Dresselhaus, G. Chen, Size effects on the hydrogen storage properties of nanostructured metal hydrides a review, Int. J. Energy Res. 31(6-7) (2007) 637-663. 

G. Liang, J. Huot, S. Boily, A. Van Neste, R. Schulz, Hydrogen storage properties of the mechanically milled MgH -V nanocomposite, J. Alloys Compd. 291 (1999) 295-299. 

Guenee and Yvon [217] synthesized LaNi MOj intermetallic with a YNi Alj-type crystal structure. However, its hydrogen storage properties are no better than those of LaNij-type because it could barely absorb -1.4 wt.%Hj forming LaNi MnjH and its equilibrium temperature at 1 bar H, is about 60°C. No attempt of nanostructuring the compound by ball milling was made. 

N. Hanada, T. Ichikawa, S.-I. Orimo, H. Fuji, Correlation between hydrogen storage properties and structural characteristics in mechanically milled magnesium hydride MgH, J. Alloys Compd. 366 (2004) 269-273. 

H. Shao, Y. Wang, H. Xu, X. Li, Hydrogen storage properties of magnesium ultrafine particles prepared by hydrogen plasma-metal reaction, Mater Sci. Eng. B 110 (2004) 221-226. 

Saita, T. Toshima, S. Tanada, T. AMyama, Hydrogen storage property of MgH synthesized by hydriding chemical vapor deposition, J. Alloys Compd. 446-447 (2007) 80- 3. 

M. Au, Hydrogen storage properties of magnesium based nanostructured/amorphous composite materials, Mater. Res. Soc. Symp. Proc. 801 (2004) BBl.5.1-1.5.14. 

V. Skripnyuk, E. Buchman, E. Rabkin, Y. Estrin, M. Popov, S. Jorgensen, The effect of equal channel angular pressing on hydrogen storage properties of a eutectic Mg-Ni alloy, J. Alloys Compd. 436 (2007) 99-106. 

Y. Fu, M. GroU, R. Mertz, R. Kulenovic, Effect of LaNi and additional catalysts on hydrogen storage properties of Mg, J. Alloys Compd. 460 (2008) 607-613. 

J.J. Vajo, F. Mertens, C.C. Ahn, R.C. BowmanJr., B. Fultz, Altering hydrogen storage properties by hydride destabihzation through aUoy formation LiH and MgH destabUized with Si, /. Phys. Chem. 108 (2004) 13977-13983. 

R.A. Vaiin, T. Czujko, S. Baksa, Z.S. Wronski, The effect of specific surface area and chemistry of Inco nano-Ni on the hydrogen storage properties of MgHj, (in preparation for publication). 

R. Gupta, F. Agresti, S. Lo Russo, A. Maddalena, R Palade, G. Principi, Structure and hydrogen storage properties of MgH catalysed with La O, J. Alloys Compd. 450 (2008) 310-313. 

Z.G. Huang, Z.P. Guo, A. Calka, D. Wexler, H.K. Liu, Effect of carbon black, graphite and carbon nanotubes additives on hydrogen storage properties of magnesium, J. Alloys Compd. 427 (2007) 94-100. 

W. Wang, C. Chen, L. Chen, Q. Wang, Change in structure and hydrogen storage properties of La,Mg,Ni alloy after modification by mechanical grinding in tetrahydrofuran, J. Alloys Compd. 339 (2002) 175-179. 

X.P Song, P. Pei, PL. Zhang, G.L. Chen, The influence of alloy elements on the hydrogen storage properties in vanadium-based solid-solution alloys, J. Alloys Compd. 455 (2008) 392-397. 

J. Huot, H. Enoki, E. Akiba, Synthesis, phase transformation, and hydrogen storage properties of ball-milled TiV(,Mnj J J. Alloys Compd. 453 (2008) 203-209. 

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