Study of change in packed bed state of nano-structured FeTi hydrogen storage alloy

Matsushita, Masayuki; Tajima, Ikko; Abe, Masatake; Tokuyama, Hideki

doi:10.1299/transjsme.18-00326

Transactions of the JSME (In Japanese)

2019

DOI: 10.1299/transjsme.18-00326

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Study of change in packed bed state of nano-structured FeTi hydrogen storage alloy

Masayuki Matsushita

Ikko Tajima²,

Masatake Abe³

et al.

Abstract: The volume of metal hydride packed bed changed by the influence of the expansion during hydrogen absorption and by the contraction during hydrogen desorption was measured by direct observation. The metal hydride used in the experiment are newly developed nano-structured FeTi (n-FeTi) by mechanical alloying. In the authors' previous study of LaNi5, the volume of the packed bed gradually increased according to the hydrogen absorption and desorption cycles because of the influence of particle breakup. On the othe… Show more

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Cited by 2 publications

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Study of temperature calculation in hydrogen storage tank filled with metal hydride

Matsushita

Iino

Tajima³

et al. 2020

Transactions of the JSME (In Japanese)

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The temperature calculation of a practical hydrogen storage tank filled with a metal hydride under development was carried out. The metal hydride was a nano-stractured FeTi (n-FeTi) by mechanical alloying, which has low particle decay and low price.The governing equations used in the calculation were the unsteady two-dimensional heat conduction equations. Expansion and contraction of metal hydride due to hydrogen storage and release were considered as changes in porosity and changes in thermal properties. The change in porosity was treated as the change in energy generated per unit volume. For changes in thermal properties, the empirical formulas based on our experiments were used for the changes in effective thermal conductivity and effective thermal diffusivity due to hydrogenation. A hydrogen storage tank was actually manufactured, and the experimental and calculated results were compared. From the results, it is considered that the use of empirical formulas is important for improving the reliability of calculation results because the change in thermal properties of the packed bed of hydrogen storage alloy due to hydrogenation affects the temperature distribution. In addition, the effect of the presence or absence of heat transfer enhancement fins was evaluated by the calculation. As a result, this calculation can be used to design the heat transfer enhancement fins for hydrogen storage tanks.

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Study of temperature calculation in hydrogen storage tank filled with metal hydride

Matsushita

Iino

Tajima³

et al. 2020

Transactions of the JSME (In Japanese)

View full text Add to dashboard Cite

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The Stress Developed on the Side Wall of the Pressure Vessel for the Packed Bed of the Hydrogen Storage Alloy and the Change in the Packing State

Okumura

Ikado

Saito

et al. 2021

J. Jpn. Inst. Energy

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When the hydrogen absorbing alloy was packed in the pressure vessel, the effect of cyclic hydrogen absorption/desorption on the stress developed on the side wall of the vessel and the packing state of the packed bed of the alloy was investigated. The effect of the change in the packing state of the packed bed on the stress was also investigated. While the stress developed on the side wall of the vessel of the packed bed was not observed in the upper region of the vessel, the stress increased with the increase in the number of hydrogen absorption/desorption cycles and showed constant value in the lower region of the vessel. Also, with the increase in the number of cycles, the local packing fraction of the packed bed decreased in the upper region whereas the fraction rose to around 0.7 and then showed a constant value in the lower region. Furthermore, it was suggested that the stress becomes higher in the region with the higher local packing fraction and for the larger number of the cycles even though the fraction is the same. It was also suggested that the local packing fraction becomes a constant value after about 20 cycles of hydrogen absorption/desorption.

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Study of change in packed bed state of nano-structured FeTi hydrogen storage alloy

Cited by 2 publications

References 10 publications

Study of temperature calculation in hydrogen storage tank filled with metal hydride

Study of temperature calculation in hydrogen storage tank filled with metal hydride

The Stress Developed on the Side Wall of the Pressure Vessel for the Packed Bed of the Hydrogen Storage Alloy and the Change in the Packing State

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