Method of controlling rate of hydrogen release from metastable hydrogen carriers

What is claimed is: 1. A method of controlling a rate of hydrogen release from a decomposition reaction of a metastable hydrogen carrier, the method comprising: relating the rate to a temperature and a composition of the metastable hydrogen carrier; determining the composition of the metastable hydrogen carrier; and based on the composition, controlling the rate of hydrogen release from the decomposition reaction of the metastable hydrogen carrier by adjusting the temperature of the metastable hydrogen carrier, wherein the metastable hydrogen carrier consists of aluminum hydride (AlH 3 ), lithium aluminum hydride (LiAlH 4 and Li 3 AlH 6 ), magnesium aluminum hydride (Mg(AlH 4 ) 2 ), and/or calcium aluminum hydride (Ca(AlH 4 ) 2 ). 2. A method of controlling a rate of hydrogen release from a decomposition reaction of a metastable hydrogen carrier, the method comprising: relating the rate to a temperature and a composition of the metastable hydrogen carrier; determining the composition of the metastable hydrogen carrier; and based on the composition, controlling the rate of hydrogen release from the decomposition reaction of the metastable hydrogen carrier by adjusting the temperature of the metastable hydrogen carrier, wherein the metastable hydrogen carrier comprises a metastable metal hydride selected from the group consisting of aluminum hydride (AlH 3 ), magnesium aluminum hydride (Mg(AlH 4 ) 2 ), calcium aluminum hydride (Ca(AlH 4 ) 2 ), and combinations thereof. 3. The method of claim 2 , where the determining of the composition of the metastable hydrogen carrier comprises: measuring a hydrogen flow rate from the metastable hydrogen carrier; determining a cumulative amount of evolved hydrogen based on the hydrogen flow rate; and utilizing the cumulative amount of evolved hydrogen and a total amount of stored hydrogen in the metastable hydrogen carrier to determine the composition. 4. The method of claim 2 , wherein the relating of the rate to the temperature and the composition is through a look-up table comprising a plurality of rows or columns of data, each row or column of data includes a rate of hydrogen release and corresponding temperature and composition of the metastable hydrogen carrier. 5. The method of claim 2 , wherein the composition is a percent of hydrogen released from the metastable hydrogen carrier based on a total amount of hydrogen in the pristine metastable hydrogen carrier prior to any decomposition reaction. 6. The method of claim 2 , wherein the relating of the rate to the temperature and the composition determines a function with one or more constants independent of temperature and one or more parameters dependent on temperature. 7. The method of claim 6 , wherein the relating of the rate to the temperature and the composition comprises: conducting a plurality of isothermal decomposition reactions at a plurality of temperatures to obtain cumulative decomposition curves or derivative decomposition curves for each of the plurality of temperatures; fitting the cumulative or derivative decomposition curves to the function with the one or more constants independent of temperature and the one or more parameters dependent on temperature with pre-exponential and exponential constants; determining the temperature independent constants and pre-exponential and exponential constants of the temperature dependent parameters; and analytically or numerically solving the function, with the temperature explicitly included in the function.