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改性堇青石载体催化剂选择性催化还原NO_x研究 被引量:3

Selective catalytic reduction of NO_x with urea on catalyst of modificated corderite
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摘要 以六次甲基四胺为铝溶胶造孔剂,用正交设计的方法对影响比表面积的4个主要因素范围进行了优选,给出了最佳条件:铝溶胶与六次甲基四胺体积比为3∶1,浸渍次数为6次,焙烧时间为45 min和焙烧温度为400℃,比表面积最大达到75.68 m2/g。考察了改性后载体涂层的冲蚀和抗热冲击性能,负载活性组分后的涂层脱落率均小于5%。并考察以尿素为还原剂,改性前后的载体负载活性组分为催化剂催化还原NO的活性,结果表明,提高比表面积,空速在24000 h-1下转化率仍能大于30%,催化剂起活温度降低到150℃,是提高大空速下催化剂活性和拓宽选择催化还原NOx温度窗口的一种方法。 In this paper, the four main factors which influence the specific surface area are optimized by orthogonal design method. The optimal conditions were using the hexamethylenetetramine as the hole-making agents of aluminum sol, with the volume ratio of alumina sol to hexamethylenetetramine 3 : 1, at 400℃ ,with 45 rain of calcining, and 6 times of impregnation,and the surface area is 75.68 m^2/g. The erosion and thermal shock of coating is tested, the result indicated that the abscission rate of coating which load active agents is less than 5%. Using urea as reducing agent, the active agents which loaded on carrier before and after modification deoxidize NO. It indicates that the specific surface area has been enlarged,the conversion is more than 30% at air speed of 24 000 h^-1 and the active temperature decreases to 150℃. So it is a method to improve the catalytic activity under the large air speed and wide the temperature range in selective catalytic reduction of NOx.
作者 郝树甫 董国君 龚凡 张杰
机构地区 哈尔滨工程大学材料科学与化学工程学院
出处 《应用化工》 CAS CSCD 2008年第2期153-157,共5页 Applied Chemical Industry
基金 黑龙江省博士后基金项目
关键词 堇青石 γ-Al2O3涂层 正交设计 活性 催化剂 corderite γ-Al2O3 coatings orthogonal design activity catalyst
分类号 TQ426.96 [化学工程]
作者简介 郝树甫(1983-),男,内蒙商都人,哈尔滨工程大学在读硕士研究生,师从董国君教授,主要从事材料化学方向研究。电话:13945691027,E-mail:dgj1129@163.com
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参考文献13

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