Nitric oxide and oxygen reactions with 1-butene over manganese(III) oxide

Reactions of 1-butene with nitric oxide from 623 to 723 K and with oxygen from 433 to 573 K have been studied in a differential flow system over manganese(III) oxide. Nitrous oxide was formed in the reaction of the hydrocarbon with nitric oxide along with products of complete combustion. The apparen...

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Veröffentlicht in:	Canadian journal of chemistry 1983-12, Vol.61 (12), p.2767-2772
Hauptverfasser:	Ross, Robert Anderson, Fairbridge, Craig
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical reactivity Chemistry Exact sciences and technology Organic chemistry Reactivity and mechanisms
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container_title	Canadian journal of chemistry
container_volume	61
creator	Ross, Robert Anderson Fairbridge, Craig
description	Reactions of 1-butene with nitric oxide from 623 to 723 K and with oxygen from 433 to 573 K have been studied in a differential flow system over manganese(III) oxide. Nitrous oxide was formed in the reaction of the hydrocarbon with nitric oxide along with products of complete combustion. The apparent activation energies were respectively 69 ± 4, 78 ± 4, and 30 ± 4 kJ mol −1 for nitrogen, carbon dioxide, and nitrous oxide reaction rates. The corresponding pre-exponential factors were 1.72 × 10 −1 and 1.16 mol 0.5 L −0.5 m 2 g −1 , and 1.99 × 10 −2 mol −0.35 L 0.35 m 2 g −1 . In the reaction with oxygen, apparent activation energies of 183 ± 4, 523 to 503 K, and 88 ± 4 kJ mol −1 , 503 to 433 K, were determined with pre-exponential factors 1.74 × 10 15 and 2.94 × 10 5 mol 0.3 m −2 g −1 . During catalysis the oxide underwent a partial phase change from α to γ in both reactions. Additionally, nitrate species were present on the surface after oxidation with nitric oxide. Kinetic expressions have been derived and mechanisms proposed for both reactions which may occur in emission control systems requiring the removal of NO x and unburned hydrocarbons.
doi_str_mv	10.1139/v83-475
format	Article
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Nitrous oxide was formed in the reaction of the hydrocarbon with nitric oxide along with products of complete combustion. The apparent activation energies were respectively 69 ± 4, 78 ± 4, and 30 ± 4 kJ mol −1 for nitrogen, carbon dioxide, and nitrous oxide reaction rates. The corresponding pre-exponential factors were 1.72 × 10 −1 and 1.16 mol 0.5 L −0.5 m 2 g −1 , and 1.99 × 10 −2 mol −0.35 L 0.35 m 2 g −1 . In the reaction with oxygen, apparent activation energies of 183 ± 4, 523 to 503 K, and 88 ± 4 kJ mol −1 , 503 to 433 K, were determined with pre-exponential factors 1.74 × 10 15 and 2.94 × 10 5 mol 0.3 m −2 g −1 . During catalysis the oxide underwent a partial phase change from α to γ in both reactions. Additionally, nitrate species were present on the surface after oxidation with nitric oxide. 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Nitrous oxide was formed in the reaction of the hydrocarbon with nitric oxide along with products of complete combustion. The apparent activation energies were respectively 69 ± 4, 78 ± 4, and 30 ± 4 kJ mol −1 for nitrogen, carbon dioxide, and nitrous oxide reaction rates. The corresponding pre-exponential factors were 1.72 × 10 −1 and 1.16 mol 0.5 L −0.5 m 2 g −1 , and 1.99 × 10 −2 mol −0.35 L 0.35 m 2 g −1 . In the reaction with oxygen, apparent activation energies of 183 ± 4, 523 to 503 K, and 88 ± 4 kJ mol −1 , 503 to 433 K, were determined with pre-exponential factors 1.74 × 10 15 and 2.94 × 10 5 mol 0.3 m −2 g −1 . During catalysis the oxide underwent a partial phase change from α to γ in both reactions. Additionally, nitrate species were present on the surface after oxidation with nitric oxide. Kinetic expressions have been derived and mechanisms proposed for both reactions which may occur in emission control systems requiring the removal of NO x and unburned hydrocarbons.</description><subject>Chemical reactivity</subject><subject>Chemistry</subject><subject>Exact sciences and technology</subject><subject>Organic chemistry</subject><subject>Reactivity and mechanisms</subject><issn>0008-4042</issn><issn>1480-3291</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1983</creationdate><recordtype>article</recordtype><recordid>eNp10EtLAzEQB_AgCtYqfoUcxBdE89pu9ijFx0LRi56XZJK0K222JGu1397IFg-CuSSB38wwf4ROGb1hTFS3GyWILIs9NGJSUSJ4xfbRiFKqiKSSH6KjlN7zt6S8GKH6ue1jC7j7aq3DOtj82s5dwNFp6NsuJPzZ9gvMiPnoXXC427iIVzrMdXDJXdZ1fTUUH6MDr5fJnezuMXp7uH-dPpHZy2M9vZsR4AXtCZdgpFJWGWmtNl5zD0U-rAJWlMJWRnsOaiLZhApZMKO44pKWzjCqBIAYo4uhL8Qupeh8s47tSsdtw2jzk0CTE2hyAlmeDXKtE-iljzpAm355JSeilCqz84GFCDHvpCMsftGuV7O2PsPr_-Hf4d9ii3VU</recordid><startdate>19831201</startdate><enddate>19831201</enddate><creator>Ross, Robert Anderson</creator><creator>Fairbridge, Craig</creator><general>NRC Research Press</general><general>National Research Council of Canada</general><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>19831201</creationdate><title>Nitric oxide and oxygen reactions with 1-butene over manganese(III) oxide</title><author>Ross, Robert Anderson ; Fairbridge, Craig</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c250t-24cb488d8b4ddabfa2fc555519c1573d9baf2c8641603451b8282407eb1083cc3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1983</creationdate><topic>Chemical reactivity</topic><topic>Chemistry</topic><topic>Exact sciences and technology</topic><topic>Organic chemistry</topic><topic>Reactivity and mechanisms</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Ross, Robert Anderson</creatorcontrib><creatorcontrib>Fairbridge, Craig</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><jtitle>Canadian journal of chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ross, Robert Anderson</au><au>Fairbridge, Craig</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Nitric oxide and oxygen reactions with 1-butene over manganese(III) oxide</atitle><jtitle>Canadian journal of chemistry</jtitle><addtitle>Revue canadienne de chimie</addtitle><date>1983-12-01</date><risdate>1983</risdate><volume>61</volume><issue>12</issue><spage>2767</spage><epage>2772</epage><pages>2767-2772</pages><issn>0008-4042</issn><eissn>1480-3291</eissn><coden>CJCHAG</coden><abstract>Reactions of 1-butene with nitric oxide from 623 to 723 K and with oxygen from 433 to 573 K have been studied in a differential flow system over manganese(III) oxide. Nitrous oxide was formed in the reaction of the hydrocarbon with nitric oxide along with products of complete combustion. The apparent activation energies were respectively 69 ± 4, 78 ± 4, and 30 ± 4 kJ mol −1 for nitrogen, carbon dioxide, and nitrous oxide reaction rates. The corresponding pre-exponential factors were 1.72 × 10 −1 and 1.16 mol 0.5 L −0.5 m 2 g −1 , and 1.99 × 10 −2 mol −0.35 L 0.35 m 2 g −1 . In the reaction with oxygen, apparent activation energies of 183 ± 4, 523 to 503 K, and 88 ± 4 kJ mol −1 , 503 to 433 K, were determined with pre-exponential factors 1.74 × 10 15 and 2.94 × 10 5 mol 0.3 m −2 g −1 . During catalysis the oxide underwent a partial phase change from α to γ in both reactions. Additionally, nitrate species were present on the surface after oxidation with nitric oxide. Kinetic expressions have been derived and mechanisms proposed for both reactions which may occur in emission control systems requiring the removal of NO x and unburned hydrocarbons.</abstract><cop>Ottawa, Canada</cop><pub>NRC Research Press</pub><doi>10.1139/v83-475</doi><tpages>6</tpages></addata></record>
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source	NRC Research Press; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Free Full-Text Journals in Chemistry
subjects	Chemical reactivity Chemistry Exact sciences and technology Organic chemistry Reactivity and mechanisms
title	Nitric oxide and oxygen reactions with 1-butene over manganese(III) oxide
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