NOx reduction by propene in an oxidizing atmosphere over Cu-ZrO2

Mayfair Kung; Kathleen A. Bethke; Harold H. Kung

NO_x reduction by propene in an oxidizing atmosphere over Cu-ZrO₂

Mayfair Kung, Kathleen A. Bethke, Harold H. Kung

Northwestern University

Research output: Contribution to journal › Conference article › peer-review

3 Citations (Scopus)

Abstract

Air pollution by NO is a serious problem. An attractive way of NO_x abatement is to reduce NO by hydrocarbon in an oxidizing atmosphere. Currently the best catalytic system to achieve this reduction is transition metals exchanged ZSM-5(1-3). Unfortunately these catalysts have problems with hydrothermal stability. A possible solution to this is to fine oxidic systems that are active for the hydrocarbon reduction of NO in an oxidizing atmosphere.

Original language	English
Pages (from-to)	154-158
Number of pages	5
Journal	American Chemical Society, Division of Petroleum Chemistry, Preprints
Volume	39
Issue number	1
Publication status	Published - Feb 1 1994
Event	Proceedings of the Symposia on Distillate Fuel Auto-Oxidation Chemistry - San Diego, CA, USA Duration: Mar 13 1994 → Mar 18 1994

ASJC Scopus subject areas

Fuel Technology

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abstract = "Air pollution by NO is a serious problem. An attractive way of NOx abatement is to reduce NO by hydrocarbon in an oxidizing atmosphere. Currently the best catalytic system to achieve this reduction is transition metals exchanged ZSM-5(1-3). Unfortunately these catalysts have problems with hydrothermal stability. A possible solution to this is to fine oxidic systems that are active for the hydrocarbon reduction of NO in an oxidizing atmosphere.",

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AU - Bethke, Kathleen A.

AU - Kung, Harold H.

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N2 - Air pollution by NO is a serious problem. An attractive way of NOx abatement is to reduce NO by hydrocarbon in an oxidizing atmosphere. Currently the best catalytic system to achieve this reduction is transition metals exchanged ZSM-5(1-3). Unfortunately these catalysts have problems with hydrothermal stability. A possible solution to this is to fine oxidic systems that are active for the hydrocarbon reduction of NO in an oxidizing atmosphere.

AB - Air pollution by NO is a serious problem. An attractive way of NOx abatement is to reduce NO by hydrocarbon in an oxidizing atmosphere. Currently the best catalytic system to achieve this reduction is transition metals exchanged ZSM-5(1-3). Unfortunately these catalysts have problems with hydrothermal stability. A possible solution to this is to fine oxidic systems that are active for the hydrocarbon reduction of NO in an oxidizing atmosphere.

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AN - SCOPUS:0028371880

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JO - American Chemical Society, Division of Petroleum Chemistry, Preprints

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T2 - Proceedings of the Symposia on Distillate Fuel Auto-Oxidation Chemistry

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