Cr掺杂的丙烷选择氧化制丙烯酸高效催化剂

催化学报 , 2013, (12): 2183-2191. doi: 10.1016/S1872-2067(12)60671-8

Cr掺杂的丙烷选择氧化制丙烯酸高效催化剂

徐爱新 ^1, , 王阳 ^2, , 葛汉青 ^3, , 陈淑 ^4, , 李彦花 ^5, , 陆维敏 ^6,

1.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

2.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

3.中国石油石油化工研究院兰州化工研究中心，甘肃兰州730000

4.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

5.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

6.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

基金项目: 国家自然科学基金(21173186)

关键词：丙烷 , 选择氧化 , 丙烯酸 , MoVTeNbOx催化剂 , 铬掺杂

An outstanding Cr-doped catalyst for selective oxidation of propane to acrylic acid

Aixin Xu ^1, , Yang Wang ^2, , Hanqing Ge ^3, , Shu Chen ^4, , Yanhua Li ^5, , Weimin Lu ^6,

1.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

2.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

3.中国石油石油化工研究院兰州化工研究中心，甘肃兰州730000

4.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

5.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

6.浙江大学催化研究所，浙江省应用化学重点实验室，浙江杭州310028

Keywords： Propane , Selective oxidation , Acrylic acid , MoVTeNbOx catalyst , Cr doping

在丙烷选择氧化制丙烯酸催化剂MoVTeNbOx的活性相M1基础上掺杂一定量的Cr,当Cr/Nb摩尔比为0.002时,催化剂具有很高的丙烯酸选择性(78.3%)和收率(50.7%)；并采用X射线衍射、X射线光电子能谱、程序升温还原、O2程序升温脱附、NH3程序升温脱附和异丙醇氧化等手段对催化剂的构效关系进行了探讨.结果表明,适量Cr的添加可调节催化剂表面Mo6+, V5+和Te4+等物种含量,提高催化剂的氧化能力,使丙烷转化率增加.同时,适量Cr的添加使得催化剂表面酸强度下降,酸性位点数量减少,从而抑制丙烯酸的深度氧化,提高了丙烯酸选择性.

The catalytic performance of active MoVTeNbOx catalysts containing an M1 phase in the partial oxidation of propane to acrylic acid (AA) was greatly improved when an optimal amount of Cr was added. The catalyst containing Cr/Nb (molar ratio=0.002) showed good selectivity (78.3%) and high AA yield (50.7%). The catalysts were characterized using X-ray diffraction, X-ray photoelectron spectroscopy, H2 temperature-programmed reduction, O2 and NH3 temperature-programmed de-sorption, and oxidation of 2-propanol. The relationship between the catalyst structure and catalytic properties was investigated. The results indicated that the amounts of Mo6+, V5+and Te4+species on the catalyst surface were adjusted, and oxidation activity of the catalyst increased, as a result of doping with an appropriate amount Cr, which promoted propane activation. The acid strength be-came weaker, and the number of acid sites on the catalyst surface decreased, which suppressed AA oxidation and improved the selectivity for AA.

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