PEFC-type impurity sensors for hydrogen fuels

Z. Noda; K. Hirata; A. Hayashi; S. Taniguchi; N. Nakazato; A. Seo; I. Yasuda; S. Ariura; H. Shinkai; K. Sasaki

doi:10.1016/j.ijhydene.2012.08.062

PEFC-type impurity sensors for hydrogen fuels

Z. Noda, K. Hirata, A. Hayashi, S. Taniguchi, N. Nakazato, A. Seo, I. Yasuda, S. Ariura, H. Shinkai, K. Sasaki

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

6 Citations (Scopus)

Abstract

Hydrogen purity sensor cells were newly developed with the principle of PEFC. By using the phenomena of PEFC's voltage drop seen in the presence of impurities and further minimizing the amount of Pt to make the cells more sensitive to impurities, the sensor cells were prepared. This unique sensing principle was applied to typical impurities in practical hydrogen gases, including CO, H₂S, and NH₃. Sensor responses were derived by analyzing various kinds of dependency on Pt loading, current density, impurity concentration, and operational temperature. Possibility of recovery from impurity poisoning was also studied by varying impurities' supply and potential charge. Consequently, our simple PEFC-type hydrogen purity sensors were verified to have ability to sense ppm-level impurities within 10 min.

Original language	English
Pages (from-to)	16256-16263
Number of pages	8
Journal	International Journal of Hydrogen Energy
Volume	37
Issue number	21
DOIs	https://doi.org/10.1016/j.ijhydene.2012.08.062
Publication status	Published - Nov 2012

All Science Journal Classification (ASJC) codes

Renewable Energy, Sustainability and the Environment
Fuel Technology
Condensed Matter Physics
Energy Engineering and Power Technology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.ijhydene.2012.08.062

Cite this

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title = "PEFC-type impurity sensors for hydrogen fuels",

abstract = "Hydrogen purity sensor cells were newly developed with the principle of PEFC. By using the phenomena of PEFC's voltage drop seen in the presence of impurities and further minimizing the amount of Pt to make the cells more sensitive to impurities, the sensor cells were prepared. This unique sensing principle was applied to typical impurities in practical hydrogen gases, including CO, H2S, and NH3. Sensor responses were derived by analyzing various kinds of dependency on Pt loading, current density, impurity concentration, and operational temperature. Possibility of recovery from impurity poisoning was also studied by varying impurities' supply and potential charge. Consequently, our simple PEFC-type hydrogen purity sensors were verified to have ability to sense ppm-level impurities within 10 min.",

author = "Z. Noda and K. Hirata and A. Hayashi and S. Taniguchi and N. Nakazato and A. Seo and I. Yasuda and S. Ariura and H. Shinkai and K. Sasaki",

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T1 - PEFC-type impurity sensors for hydrogen fuels

AU - Noda, Z.

AU - Hirata, K.

AU - Hayashi, A.

AU - Taniguchi, S.

AU - Nakazato, N.

AU - Seo, A.

AU - Yasuda, I.

AU - Ariura, S.

AU - Shinkai, H.

AU - Sasaki, K.

PY - 2012/11

Y1 - 2012/11

N2 - Hydrogen purity sensor cells were newly developed with the principle of PEFC. By using the phenomena of PEFC's voltage drop seen in the presence of impurities and further minimizing the amount of Pt to make the cells more sensitive to impurities, the sensor cells were prepared. This unique sensing principle was applied to typical impurities in practical hydrogen gases, including CO, H2S, and NH3. Sensor responses were derived by analyzing various kinds of dependency on Pt loading, current density, impurity concentration, and operational temperature. Possibility of recovery from impurity poisoning was also studied by varying impurities' supply and potential charge. Consequently, our simple PEFC-type hydrogen purity sensors were verified to have ability to sense ppm-level impurities within 10 min.

AB - Hydrogen purity sensor cells were newly developed with the principle of PEFC. By using the phenomena of PEFC's voltage drop seen in the presence of impurities and further minimizing the amount of Pt to make the cells more sensitive to impurities, the sensor cells were prepared. This unique sensing principle was applied to typical impurities in practical hydrogen gases, including CO, H2S, and NH3. Sensor responses were derived by analyzing various kinds of dependency on Pt loading, current density, impurity concentration, and operational temperature. Possibility of recovery from impurity poisoning was also studied by varying impurities' supply and potential charge. Consequently, our simple PEFC-type hydrogen purity sensors were verified to have ability to sense ppm-level impurities within 10 min.

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JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

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ER -

PEFC-type impurity sensors for hydrogen fuels

Abstract

All Science Journal Classification (ASJC) codes

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