Kinetics and modeling study of a Mg(BH4)2/Ca(BH4)2 destabilized system

Borohydrides such as Mg(BH₄)₂ and Ca(BH₄)₂ continue to attract attention as potential hydrogen storage materials because of their high hydrogen content. In this study the desorption kinetics of Mg(BH₄)₂, Ca(BH₄)₂ and a 5Mg(BH₄)₂/Ca(BH₄)₂ mixture of the two were compared in the two-phase region at the same temperature and at a constant pressure thermodynamic driving force. The rate of hydrogen desorption from the two-phase region in the 5Mg(BH₄)₂/Ca(BH₄)₂ mixture was faster than that from either of the constituents. This indicated that Ca(BH₄)₂ was able to serve as a destabilizing agent for Mg(BH₄)₂. The results also showed that the desorption rates from the two-phase region were much faster than those from the single phase region. Modeling studies showed that the rate of hydrogen release from Mg(BH₄)₂, during the first 80% of the reaction, is diffusion controlled while in Ca(BH₄)₂ the reaction rate is phase boundary controlled. In the mixture the rate appears to be under the mixed control of both processes.