Abstract
In this paper a mathematical model has been developed to evaluate various designs of Metal-Hydrogen Storage Vessel (MHSV). This model which considers complex heat and mass transfer is numerically solved and a computer program is developed. The numerical results are compared to the measured data collected on three MHSV and a reasonable agreement is obtained. The performance of an MHSV is mainly denoted by the hydrogen storage time and the capacity of the absorption and desorption. Hence, a discussion based on these parameters has been done. Moreover, results concerning the impact of the heat exchanger configuration are given. © 2009 International Association for Hydrogen Energy.
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Mellouli, S., Askri, F., Dhaou, H., Jemni, A., & Ben Nasrallah, S. (2009). Numerical study of heat exchanger effects on charge/discharge times of metal-hydrogen storage vessel. International Journal of Hydrogen Energy, 34(7), 3005–3017. https://doi.org/10.1016/j.ijhydene.2008.12.099
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