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Title: Towards a viable hydrogen storage system for transportation application.

Conference ·
OSTI ID:945181
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Hydrogen energy may provide the means to an environmentally friendly future. One of the problems related to its application for transportation is 'on-board' storage. Hydrogen storage in solids has long been recognized as one of the most practical approaches for this purpose. The H-capacity in interstitial hydrides of most metals and alloys is limited to below 2.5% by weight and this is unsatisfactory for on-board transportation applications. Magnesium hydride is an exception with hydrogen capacity of -8.2 wt.%, however, its operating temperature, above 350 C, is too high for practical use. Sodium alanate (NaAlH{sub 4}) absorbs hydrogen up to 5.6 wt.% theoretically; however, its reaction kinetics and partial reversibility do not completely meet the new target for transportation application. Recently Chen et al. [1] reported that (Li{sub 3}N+2H{sub 2} {leftrightarrow} LiNH{sub 2} + 2LiH) provides a storage material with a possible high capacity, up to 11.5 wt.%, although this material is still too stable to meet the operating pressure/temperature requirement. Here we report a new approach to destabilize lithium imide system by partial substitution of lithium by magnesium in the (LiNH{sub 2} + LiH {leftrightarrow} Li{sub 2}NH + H{sub 2}) system with a minimal capacity loss. This Mg-substituted material can reversibly absorb 5.2 wt.% hydrogen at pressure of 30 bar at 200 C. This is a very promising material for on-board hydrogen storage applications. It is interesting to observe that the starting material (2LiNH{sub 2} + MgH{sub 2}) converts to (Mg(NH{sub 2}){sub 2} + 2LiH) after a desorption/re-absorption cycle.

Research Organization:
Sandia National Laboratories (SNL), Albuquerque, NM, and Livermore, CA (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
AC04-94AL85000
OSTI ID:
945181
Report Number(s):
SAND2004-5345C; TRN: US200902%%1269
Resource Relation:
Conference: Proposed for presentation at the ASM International Materials Solutions Conference & Exposition held October 18-20, 2004 in Columbus, OH.
Country of Publication:
United States
Language:
English

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Related Subjects

08 HYDROGEN
ALLOYS
CAPACITY
HYDRIDES
HYDROGEN
HYDROGEN STORAGE
IMIDES
INTERSTITIALS
LITHIUM
MAGNESIUM
MAGNESIUM HYDRIDES
REACTION KINETICS
SODIUM
STORAGE
TARGETS