Transport phenomena in a packed bed reactor of metal hydride and promotion of its reaction rates by heat transfer enhancement

Koichi Nakaso; Akito Yoshimura; Yusuke Kitazato; Ryosuke Shigenaga; Jun Fukai

doi:10.1252/jcej.06WE246

Transport phenomena in a packed bed reactor of metal hydride and promotion of its reaction rates by heat transfer enhancement

Koichi Nakaso, Akito Yoshimura, Yusuke Kitazato, Ryosuke Shigenaga, Jun Fukai

Product system engineering

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

Packed bed reactors using metal hydride are attracting a lot of attention as potential future hydrogen storage systems, actuators, etc. However, their low effective thermal conductivities lead to low performance. In this study, carbon fiber brush with high thermal conductivity was installed in a reactor to improve the effective thermal conductivity. We found that the carbon fiber brush at 1.0 vol% reduced the reaction time by 30%. A two-dimensional mathematical model describing the beat and mass transfer was developed to predict the thermal performance. Expansion of particles due to absorption is also considered in this model. The model was compared with the experimental results, and it predicted the time variations of the averaged reacted fraction and local reactor temperature very well. The model suggests that heat transfer rather than mass transfer controls the overall reaction.

Original language	English
Pages (from-to)	1056-1063
Number of pages	8
Journal	JOURNAL OF CHEMICAL ENGINEERING OF JAPAN
Volume	40
Issue number	12
DOIs	https://doi.org/10.1252/jcej.06WE246
Publication status	Published - Dec 20 2007

All Science Journal Classification (ASJC) codes

Chemistry(all)
Chemical Engineering(all)

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10.1252/jcej.06WE246

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abstract = "Packed bed reactors using metal hydride are attracting a lot of attention as potential future hydrogen storage systems, actuators, etc. However, their low effective thermal conductivities lead to low performance. In this study, carbon fiber brush with high thermal conductivity was installed in a reactor to improve the effective thermal conductivity. We found that the carbon fiber brush at 1.0 vol% reduced the reaction time by 30%. A two-dimensional mathematical model describing the beat and mass transfer was developed to predict the thermal performance. Expansion of particles due to absorption is also considered in this model. The model was compared with the experimental results, and it predicted the time variations of the averaged reacted fraction and local reactor temperature very well. The model suggests that heat transfer rather than mass transfer controls the overall reaction.",

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AU - Nakaso, Koichi

AU - Yoshimura, Akito

AU - Kitazato, Yusuke

AU - Shigenaga, Ryosuke

AU - Fukai, Jun

PY - 2007/12/20

Y1 - 2007/12/20

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AB - Packed bed reactors using metal hydride are attracting a lot of attention as potential future hydrogen storage systems, actuators, etc. However, their low effective thermal conductivities lead to low performance. In this study, carbon fiber brush with high thermal conductivity was installed in a reactor to improve the effective thermal conductivity. We found that the carbon fiber brush at 1.0 vol% reduced the reaction time by 30%. A two-dimensional mathematical model describing the beat and mass transfer was developed to predict the thermal performance. Expansion of particles due to absorption is also considered in this model. The model was compared with the experimental results, and it predicted the time variations of the averaged reacted fraction and local reactor temperature very well. The model suggests that heat transfer rather than mass transfer controls the overall reaction.

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Transport phenomena in a packed bed reactor of metal hydride and promotion of its reaction rates by heat transfer enhancement

Abstract

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