Effective combination of nonthermal plasma and catalysts for decomposition of benzene in air

Atsushi Ogata; Hisahiro Einaga; Hajime Kabashima; Shigeru Futamura; Satoshi Kushiyama; Hyun Ha Kim

doi:10.1016/S0926-3373(03)00180-2

Effective combination of nonthermal plasma and catalysts for decomposition of benzene in air

Atsushi Ogata, Hisahiro Einaga, Hajime Kabashima, Shigeru Futamura, Satoshi Kushiyama, Hyun Ha Kim

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

107 Citations (Scopus)

Abstract

The effective combination of plasma energy and solid surface properties, such as catalysis and adsorption, was investigated using packed-bed type catalyst-hybrid and adsorbent-hybrid reactors that were packed with a mixture of BaTiO₃ pellets and other ceramic pellets (catalyst or adsorbent). The plasma reactor that employed catalysts indicated improvement in CO ₂ selectivity and suppression of N₂O formation compared with the reactor that was packed with BaTiO₃ alone. It was also found that the catalysts and adsorbents in the plasma reactor were useful in enhancing energy efficiency. Furthermore, the catalyst and adsorbent positions in the plasma reactor were very important for induction of surface reactions on the packed materials.

Original language	English
Pages (from-to)	87-95
Number of pages	9
Journal	Applied Catalysis B: Environmental
Volume	46
Issue number	1
DOIs	https://doi.org/10.1016/S0926-3373(03)00180-2
Publication status	Published - Oct 31 2003
Externally published	Yes

All Science Journal Classification (ASJC) codes

Catalysis
Environmental Science(all)
Process Chemistry and Technology

UN SDGs

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10.1016/S0926-3373(03)00180-2

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abstract = "The effective combination of plasma energy and solid surface properties, such as catalysis and adsorption, was investigated using packed-bed type catalyst-hybrid and adsorbent-hybrid reactors that were packed with a mixture of BaTiO3 pellets and other ceramic pellets (catalyst or adsorbent). The plasma reactor that employed catalysts indicated improvement in CO 2 selectivity and suppression of N2O formation compared with the reactor that was packed with BaTiO3 alone. It was also found that the catalysts and adsorbents in the plasma reactor were useful in enhancing energy efficiency. Furthermore, the catalyst and adsorbent positions in the plasma reactor were very important for induction of surface reactions on the packed materials.",

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AU - Ogata, Atsushi

AU - Einaga, Hisahiro

AU - Kabashima, Hajime

AU - Futamura, Shigeru

AU - Kushiyama, Satoshi

AU - Kim, Hyun Ha

PY - 2003/10/31

Y1 - 2003/10/31

N2 - The effective combination of plasma energy and solid surface properties, such as catalysis and adsorption, was investigated using packed-bed type catalyst-hybrid and adsorbent-hybrid reactors that were packed with a mixture of BaTiO3 pellets and other ceramic pellets (catalyst or adsorbent). The plasma reactor that employed catalysts indicated improvement in CO 2 selectivity and suppression of N2O formation compared with the reactor that was packed with BaTiO3 alone. It was also found that the catalysts and adsorbents in the plasma reactor were useful in enhancing energy efficiency. Furthermore, the catalyst and adsorbent positions in the plasma reactor were very important for induction of surface reactions on the packed materials.

AB - The effective combination of plasma energy and solid surface properties, such as catalysis and adsorption, was investigated using packed-bed type catalyst-hybrid and adsorbent-hybrid reactors that were packed with a mixture of BaTiO3 pellets and other ceramic pellets (catalyst or adsorbent). The plasma reactor that employed catalysts indicated improvement in CO 2 selectivity and suppression of N2O formation compared with the reactor that was packed with BaTiO3 alone. It was also found that the catalysts and adsorbents in the plasma reactor were useful in enhancing energy efficiency. Furthermore, the catalyst and adsorbent positions in the plasma reactor were very important for induction of surface reactions on the packed materials.

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Effective combination of nonthermal plasma and catalysts for decomposition of benzene in air

Abstract

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