Development of a high-efficiency H2 feeder for bioremediation

Tomo Nobata; M. Prosnansky; Y. Sakakibara; S. Fukuda

doi:10.2166/wst.2005.0333

Development of a high-efficiency H₂ feeder for bioremediation

Tomo Nobata^*, M. Prosnansky, Y. Sakakibara, S. Fukuda

^*Corresponding author for this work

School of Creative Science and Engineering

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

Abstract

An electrochemical dissolved hydrogen feeder equipped with a multi-cathode system and a high-rate recirculation pump was developed in order to examine its feasibility for bioremediation. Results showed that the feeding efficiency was remarkably higher than that in former studies. The reason for the enhanced hydrogen dissolution rate was thought to be due to the large cathode area by applying multiple granular activated carbon electrodes resulting in low current density. Two mass balance equations were formulated and applied to analyze the performance of the apparatus theoretically. The hydrogen dissolution rate calculated from the equations was in fairly good agreement with observed results. It was suggested that the electrochemical H₂ feeder would be a competitive alternative as a hydrogen feeding method for bioremediation.

Original language	English
Pages (from-to)	259-264
Number of pages	6
Journal	Water Science and Technology
Volume	52
Issue number	9
DOIs	https://doi.org/10.2166/wst.2005.0333
Publication status	Published - 2005

Keywords

Bioremediation
Dissolved hydrogen
Groundwater
Hydrogen dissolution rate
Multi-electrode

ASJC Scopus subject areas

Environmental Engineering
Water Science and Technology

Access to Document

10.2166/wst.2005.0333

Cite this

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title = "Development of a high-efficiency H2 feeder for bioremediation",

abstract = "An electrochemical dissolved hydrogen feeder equipped with a multi-cathode system and a high-rate recirculation pump was developed in order to examine its feasibility for bioremediation. Results showed that the feeding efficiency was remarkably higher than that in former studies. The reason for the enhanced hydrogen dissolution rate was thought to be due to the large cathode area by applying multiple granular activated carbon electrodes resulting in low current density. Two mass balance equations were formulated and applied to analyze the performance of the apparatus theoretically. The hydrogen dissolution rate calculated from the equations was in fairly good agreement with observed results. It was suggested that the electrochemical H2 feeder would be a competitive alternative as a hydrogen feeding method for bioremediation.",

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AU - Prosnansky, M.

AU - Sakakibara, Y.

AU - Fukuda, S.

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N2 - An electrochemical dissolved hydrogen feeder equipped with a multi-cathode system and a high-rate recirculation pump was developed in order to examine its feasibility for bioremediation. Results showed that the feeding efficiency was remarkably higher than that in former studies. The reason for the enhanced hydrogen dissolution rate was thought to be due to the large cathode area by applying multiple granular activated carbon electrodes resulting in low current density. Two mass balance equations were formulated and applied to analyze the performance of the apparatus theoretically. The hydrogen dissolution rate calculated from the equations was in fairly good agreement with observed results. It was suggested that the electrochemical H2 feeder would be a competitive alternative as a hydrogen feeding method for bioremediation.

AB - An electrochemical dissolved hydrogen feeder equipped with a multi-cathode system and a high-rate recirculation pump was developed in order to examine its feasibility for bioremediation. Results showed that the feeding efficiency was remarkably higher than that in former studies. The reason for the enhanced hydrogen dissolution rate was thought to be due to the large cathode area by applying multiple granular activated carbon electrodes resulting in low current density. Two mass balance equations were formulated and applied to analyze the performance of the apparatus theoretically. The hydrogen dissolution rate calculated from the equations was in fairly good agreement with observed results. It was suggested that the electrochemical H2 feeder would be a competitive alternative as a hydrogen feeding method for bioremediation.

KW - Bioremediation

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KW - Groundwater

KW - Hydrogen dissolution rate

KW - Multi-electrode

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