International Journal of Hydrogen Energy, Vol.43, No.29, 13356-13372, 2018
Design of a large-scale metal hydride based hydrogen storage reactor: Simulation and heat transfer optimization
An optimized design for a 210 kg alloy, Ti-Mn alloy based hydrogen storage system for stationary application is presented. A majority of the studies on metal hydride hydrogen systems reported in literature are based on system scale less than 10 kg, leaving questions on the design and performance of large-scale systems unanswered. On the basis of sensitivity to various design and operating parameters such as thermal conductivity, porosity, heat transfer coefficient etc., a comprehensive design methodology is suggested. Following a series of performance analyses, a multi-tubular shell and tube type storage system is selected for the present application which completes the absorption process in 900 s and the desorption process in 2000 s at a system gravimetric capacity of 0.7% which is a vast improvement over similar studies. The study also indicates that after fifty percent reaction completion, heat transfer ceases to be the major controlling factor in the reaction. This could help prevent over-designing systems on the basis of heat transfer, and ensure optimum system weight. (C) 2018 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.