催化学报
催化學報
최화학보
CHINESE JOURNAL OF CATALYSIS
2012年
5期
783-789
,共7页
于琴琴%刘彤%王卉%肖丽萍%陈敏%蒋晓原%郑小明
于琴琴%劉彤%王卉%肖麗萍%陳敏%蔣曉原%鄭小明
우금금%류동%왕훼%초려평%진민%장효원%정소명
氮氧化物%选择性催化还原%氧化硼%氧化铝%低温等离子体%程序升温表面反应
氮氧化物%選擇性催化還原%氧化硼%氧化鋁%低溫等離子體%程序升溫錶麵反應
담양화물%선택성최화환원%양화붕%양화려%저온등리자체%정서승온표면반응
nitrogen oxide%selective catalytic reduction%boric oxide%alumina%cold plasma%temperature-programmed surface reduction
研究了低温等离子体协助催化条件下甲烷选择性催化还原NO反应(SCR).反应气体经等离子体活化后,生成NO2,HCHO,CH3NO和CH3NO2等活性更高的中间产物.程序升温表面反应表明,这些中间产物可在等离子体后置催化装置上进一步反应,从而使NOx还原为N2.在考察的一系列催化剂(包括γ-Al2O3,Ag/γ-Al2O3,B2O3/γ-Al2O3,Ga2O3/γ-Al2O3,In2O3/γ-Al2O3等)中,B2O3/γ-Al2O3表现出最好的催化活性.当反应温度为300℃时,NOx转化率达到最高.与γ-Al2O3催化剂相比,在10wt% B2O3/γ-Al2O3催化剂上,300℃时,NOx转化为N2的转化率从33.4%提高至51.0%.催化剂的酸性对于经等离子体活化后的反应气体在催化剂上的SCR反应起到重要作用.同时,催化剂上吸附态NOx对于NOx的转化也起到一定作用.
研究瞭低溫等離子體協助催化條件下甲烷選擇性催化還原NO反應(SCR).反應氣體經等離子體活化後,生成NO2,HCHO,CH3NO和CH3NO2等活性更高的中間產物.程序升溫錶麵反應錶明,這些中間產物可在等離子體後置催化裝置上進一步反應,從而使NOx還原為N2.在攷察的一繫列催化劑(包括γ-Al2O3,Ag/γ-Al2O3,B2O3/γ-Al2O3,Ga2O3/γ-Al2O3,In2O3/γ-Al2O3等)中,B2O3/γ-Al2O3錶現齣最好的催化活性.噹反應溫度為300℃時,NOx轉化率達到最高.與γ-Al2O3催化劑相比,在10wt% B2O3/γ-Al2O3催化劑上,300℃時,NOx轉化為N2的轉化率從33.4%提高至51.0%.催化劑的痠性對于經等離子體活化後的反應氣體在催化劑上的SCR反應起到重要作用.同時,催化劑上吸附態NOx對于NOx的轉化也起到一定作用.
연구료저온등리자체협조최화조건하갑완선택성최화환원NO반응(SCR).반응기체경등리자체활화후,생성NO2,HCHO,CH3NO화CH3NO2등활성경고적중간산물.정서승온표면반응표명,저사중간산물가재등리자체후치최화장치상진일보반응,종이사NOx환원위N2.재고찰적일계렬최화제(포괄γ-Al2O3,Ag/γ-Al2O3,B2O3/γ-Al2O3,Ga2O3/γ-Al2O3,In2O3/γ-Al2O3등)중,B2O3/γ-Al2O3표현출최호적최화활성.당반응온도위300℃시,NOx전화솔체도최고.여γ-Al2O3최화제상비,재10wt% B2O3/γ-Al2O3최화제상,300℃시,NOx전화위N2적전화솔종33.4%제고지51.0%.최화제적산성대우경등리자체활화후적반응기체재최화제상적SCR반응기도중요작용.동시,최화제상흡부태NOx대우NOx적전화야기도일정작용.
A plasma-assisted catalytic system for the selective catalytic reduction of NO with methane was investigated.NO2,HCHO,CH3NO,and CH3NO2 were the reactive intermediates generated by the plasma.The further reactions of these intermediates on the catalyst during the thermal catalytic stage resulted in the conversion of NOx to N2,which was verified by temperature-programmed surface reaction characterization.B2O3/γ-Al2O3 was the best catalyst with the maximum conversion of NOx to N2 increasing from 33.4% on γ-Al2O3 to 51.0% on 10 wt% B2O3/γ-Al2O3 at 300 ℃.NH3-TPD characterization showed that the acidity of the catalyst is important for the reduction of NOx by the intermediates generated by the plasma.NOx-TPD showed that the adsorbed NOx species on the catalysts also played a role in the conversion of NOx.
