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反应修饰剂ZnSO_4和预处理对苯选择加氢制环己烯Ru-Zn催化剂性能的影响
引用本文:孙海杰,秦会安,黄振旭,苏曼菲,李永宇,刘寿长,刘仲毅. 反应修饰剂ZnSO_4和预处理对苯选择加氢制环己烯Ru-Zn催化剂性能的影响[J]. 无机化学学报, 2017, 33(1): 73-80
作者姓名:孙海杰  秦会安  黄振旭  苏曼菲  李永宇  刘寿长  刘仲毅
作者单位:郑州师范学院化学化工学院, 环境与催化工程研究所, 郑州 450044,郑州师范学院化学化工学院, 环境与催化工程研究所, 郑州 450044,郑州师范学院化学化工学院, 环境与催化工程研究所, 郑州 450044,郑州师范学院化学化工学院, 环境与催化工程研究所, 郑州 450044,郑州师范学院化学化工学院, 环境与催化工程研究所, 郑州 450044,郑州大学化学与分子工程学院, 郑州 450001,郑州大学化学与分子工程学院, 郑州 450001
基金项目:国家自然科学基金(No.21273205,21543011,U1304204);河南省科技攻关项目(No.162102210333);河南省高等学校重点科研项目(No.16A150025),河南省高校科技创新团队支持计划(No.16IRTSTHN001)资助。
摘    要:共沉淀法制备了Ru-Zn催化剂,考察了反应修饰剂ZnSO_4和预处理对苯选择加氢制环己烯Ru-Zn催化剂性能的影响。结果表明,反应修饰剂ZnSO_4可以与Ru-Zn催化剂中助剂Zn O反应生成(Zn(OH)2)3(ZnSO_4)(H_2O)盐。随反应修饰剂ZnSO_4浓度增加,(Zn(OH)2)3(ZnSO_4)(H_2O)盐量逐渐增加,Ru-Zn催化剂活性逐渐降低,环己烯选择性逐渐升高。因为(Zn(OH)2)3(ZnSO_4)(H_2O)盐中的Zn2+可以使Ru变为有利环己烯生成的缺电子的Ruδ+物种,而且还可以占据不适宜环己烯生成的强Ru活性位。但当反应修饰剂ZnSO_4浓度高于0.41 mol·L-1后,继续增加ZnSO_4浓度,由于Zn2+水解浆液酸性太强,可以溶解部分(Zn(OH)2)3(ZnSO_4)(H_2O)盐,RuZn催化剂活性升高,环己烯选择性降低。环己烯选择性略微降低,是由于ZnSO_4溶液中大量的Zn2+可以与生成的环己烯形成配合物,稳定生成的环己烯,抑制环己烯再吸附到催化剂表面并加氢生成环己烷。在ZnSO_4最佳浓度0.61 mol·L-1下对Ru-Zn催化剂预处理15 h,Ru-Zn催化剂中助剂Zn O可以与ZnSO_4完全反应生成(Zn(OH)2)3(ZnSO_4)(H_2O)盐,在该催化剂上25 min苯转化68.2%时环己烯选择性和收率分别为80.2%和54.7%。而且该催化剂具有良好的稳定性和重复使用性能。

关 键 词:苯|选择加氢|环己烯|钌|锌|反应修饰剂|预处理
收稿时间:2016-07-03
修稿时间:2016-10-07

Effect of Reaction Modifier ZnSO4 and Pretreatment on Performance of Ru-Zn Catalyst for Selective Hydrogenation of Benzene to Cyclohexene
SUN Hai-Jie,QIN Hui-An,HUANG Zhen-Xu,SU Man-Fei,LI Yong-Yu,LIU Zhong-Yi and LIU Shou-Chang. Effect of Reaction Modifier ZnSO4 and Pretreatment on Performance of Ru-Zn Catalyst for Selective Hydrogenation of Benzene to Cyclohexene[J]. Chinese Journal of Inorganic Chemistry, 2017, 33(1): 73-80
Authors:SUN Hai-Jie  QIN Hui-An  HUANG Zhen-Xu  SU Man-Fei  LI Yong-Yu  LIU Zhong-Yi  LIU Shou-Chang
Affiliation:Institute of Environmental and Catalytic Engineering, Department of Chemistry, Zhengzhou Normal University, Zhengzhou 450044, China,Institute of Environmental and Catalytic Engineering, Department of Chemistry, Zhengzhou Normal University, Zhengzhou 450044, China,Institute of Environmental and Catalytic Engineering, Department of Chemistry, Zhengzhou Normal University, Zhengzhou 450044, China,Institute of Environmental and Catalytic Engineering, Department of Chemistry, Zhengzhou Normal University, Zhengzhou 450044, China,Institute of Environmental and Catalytic Engineering, Department of Chemistry, Zhengzhou Normal University, Zhengzhou 450044, China,College of chemistry and molecular engineering, Zhengzhou University, Zhengzhou 450001, China and College of chemistry and molecular engineering, Zhengzhou University, Zhengzhou 450001, China
Abstract:A Ru-Zn catalyst was prepared by a co-precipitation method, and the effects of the modifier ZnSO4 and the pretreatment on the performance of the Ru-Zn catalyst for selective hydrogenation of benzene to cyclohexene were investigated. The results showed that the modifier ZnSO4 could react with the promoter ZnO of the Ru-Zn catalyst to form a indissoluble (Zn(OH)2)3(ZnSO4)(H2O) salt. Moreover, the amount of this salt increased with the increase of the concentration of the modifier ZnSO4, which made the activity of this catalyst increase and the selectivity to cyclohexene decrease. This is because the Zn2+ of the salt not only could transform the active sites Ru into the electron-deficient species in favor of the formation of cyclohexene, but also could occupy the strong active sites Ru unfavorable for the formation of cyclohexene. However, when the concentration of the modifier ZnSO4 was higher than 0.41 mol·L-1, the further increased concentration of ZnSO4 could dissolve part of the (Zn(OH)2)3(ZnSO4)(H2O) salt due to the strong acidity for the hydrolysis of Zn2+ of ZnSO4, thus the activity of Ru-Zn catalyst increased and the selectivity to cyclohexene decreased. But the selectivity was slightly decreased, which was because Zn2+ of ZnSO4 in the solution could form a complex with cyclohexene stabilizing cyclohexene formed and preventing cyclohexene from being adsorbed on surface of the catalyst again and being hydrogenated into cyclohexane. When the Ru-Zn catalyst was pretreated for 15 h under the condition of the optium ZnSO4 concentration of 0.61 mol·L-1, the promoter ZnO of Ru-Zn catalyst could completely react with ZnSO4 to form the (Zn(OH)2)3(ZnSO4)(H2O) salt, and this catalyst gave a selectivity of 80.2% and a cyclohexene yield of 54.7% at the benzene conversion of 68.2% at 25 min. Moreover, this catalyst had a good stability and a excellent reusability.
Keywords:benzene|selective hydrogenation|cyclohexene|Ru|Zn|reaction modifier|pretreatment
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