Comparison of Catalyzed and Homogeneous Reactions of Hydrocarbons for Selective Catalytic Reduction (SCR) of NOx

When NO2 (0.21% in He) was passed over CoZSM-5 or HZSM-5 at SVH = 45,000 h-1, equlibrium with NO + O2 was approached at temperatures above 673 K. The reactions of NO2 + CH4 NO2 + CH4 + O2, and NO + CH4 + O2 were compared over these catalysts and in the empty reactor. The latter two reactions yielded...

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Veröffentlicht in:	Journal of catalysis 1995-05, Vol.153 (2), p.265-274
Hauptverfasser:	Lukyanov, D.B., Sill, G., Ditri, J.L., Hall, W.K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Catalysis Catalytic reactions Chemistry Exact sciences and technology General and physical chemistry Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
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container_end_page	274
container_issue	2
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container_title	Journal of catalysis
container_volume	153
creator	Lukyanov, D.B. Sill, G. Ditri, J.L. Hall, W.K.
description	When NO2 (0.21% in He) was passed over CoZSM-5 or HZSM-5 at SVH = 45,000 h-1, equlibrium with NO + O2 was approached at temperatures above 673 K. The reactions of NO2 + CH4 NO2 + CH4 + O2, and NO + CH4 + O2 were compared over these catalysts and in the empty reactor. The latter two reactions yielded essentially identical results when catalyzed, as did NO2 + CH4 up to about 22% conversion of CH4, i.e., to the point where the oxygen supply became exhausted. Without added O2, NO appeared as a reduction product of NO2 along with N2. In the empty reactor, no N2 was formed although NO2 could be quantitatively reduced to NO; combustion of CH4 with O2 (or with NO) alone was not observed at temperatures less than 873 K, but light-off with NO2 or NOx + O2 occurred at about 723 K. In the absence of O2, the homogeneous CH4 conversion was limited to about 22% at 873 K where the conversion of NO2 to NO reached 100%. With added O2, conversion of CH4 reached 62% at 873 K and approached 100% under more severe conditions. These data illustrate the key role played by NO2 in the selective catalytic reduction reaction. They also show that a catalyst is necessary for the formation of N2 and emphasize the importance of O2 in maintaining an adequate supply of NO2, particularly at temperatures above 800 K where equilibrium favors NO. When C3H8 or i-C4H10 was substituted for CH4, the order of reactivity was i-C4H10 > C3H8 > CH4 in both the catalyzed and the homogeneous reactions. Moreover, in the empty reactor dehydrogenation to the corresponding olefins was found to be important with the former two; the mass balance did not close with CH4, possibly due to the formation of formaldehyde.
doi_str_mv	10.1006/jcat.1995.1129
format	Article
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The reactions of NO2 + CH4 NO2 + CH4 + O2, and NO + CH4 + O2 were compared over these catalysts and in the empty reactor. The latter two reactions yielded essentially identical results when catalyzed, as did NO2 + CH4 up to about 22% conversion of CH4, i.e., to the point where the oxygen supply became exhausted. Without added O2, NO appeared as a reduction product of NO2 along with N2. In the empty reactor, no N2 was formed although NO2 could be quantitatively reduced to NO; combustion of CH4 with O2 (or with NO) alone was not observed at temperatures less than 873 K, but light-off with NO2 or NOx + O2 occurred at about 723 K. In the absence of O2, the homogeneous CH4 conversion was limited to about 22% at 873 K where the conversion of NO2 to NO reached 100%. With added O2, conversion of CH4 reached 62% at 873 K and approached 100% under more severe conditions. These data illustrate the key role played by NO2 in the selective catalytic reduction reaction. They also show that a catalyst is necessary for the formation of N2 and emphasize the importance of O2 in maintaining an adequate supply of NO2, particularly at temperatures above 800 K where equilibrium favors NO. When C3H8 or i-C4H10 was substituted for CH4, the order of reactivity was i-C4H10 > C3H8 > CH4 in both the catalyzed and the homogeneous reactions. Moreover, in the empty reactor dehydrogenation to the corresponding olefins was found to be important with the former two; the mass balance did not close with CH4, possibly due to the formation of formaldehyde.</description><identifier>ISSN: 0021-9517</identifier><identifier>EISSN: 1090-2694</identifier><identifier>DOI: 10.1006/jcat.1995.1129</identifier><identifier>CODEN: JCTLA5</identifier><language>eng</language><publisher>Amsterdam: Elsevier Inc</publisher><subject>Catalysis ; Catalytic reactions ; Chemistry ; Exact sciences and technology ; General and physical chemistry ; Theory of reactions, general kinetics. Catalysis. 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The reactions of NO2 + CH4 NO2 + CH4 + O2, and NO + CH4 + O2 were compared over these catalysts and in the empty reactor. The latter two reactions yielded essentially identical results when catalyzed, as did NO2 + CH4 up to about 22% conversion of CH4, i.e., to the point where the oxygen supply became exhausted. Without added O2, NO appeared as a reduction product of NO2 along with N2. In the empty reactor, no N2 was formed although NO2 could be quantitatively reduced to NO; combustion of CH4 with O2 (or with NO) alone was not observed at temperatures less than 873 K, but light-off with NO2 or NOx + O2 occurred at about 723 K. In the absence of O2, the homogeneous CH4 conversion was limited to about 22% at 873 K where the conversion of NO2 to NO reached 100%. With added O2, conversion of CH4 reached 62% at 873 K and approached 100% under more severe conditions. These data illustrate the key role played by NO2 in the selective catalytic reduction reaction. They also show that a catalyst is necessary for the formation of N2 and emphasize the importance of O2 in maintaining an adequate supply of NO2, particularly at temperatures above 800 K where equilibrium favors NO. When C3H8 or i-C4H10 was substituted for CH4, the order of reactivity was i-C4H10 > C3H8 > CH4 in both the catalyzed and the homogeneous reactions. Moreover, in the empty reactor dehydrogenation to the corresponding olefins was found to be important with the former two; the mass balance did not close with CH4, possibly due to the formation of formaldehyde.</description><subject>Catalysis</subject><subject>Catalytic reactions</subject><subject>Chemistry</subject><subject>Exact sciences and technology</subject><subject>General and physical chemistry</subject><subject>Theory of reactions, general kinetics. Catalysis. 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Catalysis. Nomenclature, chemical documentation, computer chemistry</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Lukyanov, D.B.</creatorcontrib><creatorcontrib>Sill, G.</creatorcontrib><creatorcontrib>Ditri, J.L.</creatorcontrib><creatorcontrib>Hall, W.K.</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><jtitle>Journal of catalysis</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lukyanov, D.B.</au><au>Sill, G.</au><au>Ditri, J.L.</au><au>Hall, W.K.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Comparison of Catalyzed and Homogeneous Reactions of Hydrocarbons for Selective Catalytic Reduction (SCR) of NOx</atitle><jtitle>Journal of catalysis</jtitle><date>1995-05-01</date><risdate>1995</risdate><volume>153</volume><issue>2</issue><spage>265</spage><epage>274</epage><pages>265-274</pages><issn>0021-9517</issn><eissn>1090-2694</eissn><coden>JCTLA5</coden><abstract>When NO2 (0.21% in He) was passed over CoZSM-5 or HZSM-5 at SVH = 45,000 h-1, equlibrium with NO + O2 was approached at temperatures above 673 K. The reactions of NO2 + CH4 NO2 + CH4 + O2, and NO + CH4 + O2 were compared over these catalysts and in the empty reactor. The latter two reactions yielded essentially identical results when catalyzed, as did NO2 + CH4 up to about 22% conversion of CH4, i.e., to the point where the oxygen supply became exhausted. Without added O2, NO appeared as a reduction product of NO2 along with N2. In the empty reactor, no N2 was formed although NO2 could be quantitatively reduced to NO; combustion of CH4 with O2 (or with NO) alone was not observed at temperatures less than 873 K, but light-off with NO2 or NOx + O2 occurred at about 723 K. In the absence of O2, the homogeneous CH4 conversion was limited to about 22% at 873 K where the conversion of NO2 to NO reached 100%. With added O2, conversion of CH4 reached 62% at 873 K and approached 100% under more severe conditions. These data illustrate the key role played by NO2 in the selective catalytic reduction reaction. They also show that a catalyst is necessary for the formation of N2 and emphasize the importance of O2 in maintaining an adequate supply of NO2, particularly at temperatures above 800 K where equilibrium favors NO. When C3H8 or i-C4H10 was substituted for CH4, the order of reactivity was i-C4H10 > C3H8 > CH4 in both the catalyzed and the homogeneous reactions. Moreover, in the empty reactor dehydrogenation to the corresponding olefins was found to be important with the former two; the mass balance did not close with CH4, possibly due to the formation of formaldehyde.</abstract><cop>Amsterdam</cop><pub>Elsevier Inc</pub><doi>10.1006/jcat.1995.1129</doi><tpages>10</tpages></addata></record>
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subjects	Catalysis Catalytic reactions Chemistry Exact sciences and technology General and physical chemistry Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
title	Comparison of Catalyzed and Homogeneous Reactions of Hydrocarbons for Selective Catalytic Reduction (SCR) of NOx
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