化学学报 ›› 2004, Vol. 62 ›› Issue (18): 1721-1728. 上一篇    下一篇

研究论文

Ni修饰碳纳米管促进合成气高效制甲醇Cu基催化剂研究

沈炳顺, 武小满, 张鸿斌, 林国栋, 董鑫   

  1. 厦门大学化学化工学院, 固体表面物理化学国家重点实验室, 厦门, 361005
  • 投稿日期:2004-04-07 修回日期:2004-06-26 发布日期:2014-02-17
  • 通讯作者: 张鸿斌,E-mail:hbzhang@xmu.edu.cn E-mail:hbzhang@xmu.edu.cn
  • 基金资助:
    教育部科技基金(No.20010384002),国家自然科学基金(No.50072021)和福建省自然科学基金(No.2001H017)资助项目.

Study of Highly Active Cu-based Catalyst Promoted by Nickel-modified Multi-walled Carbon Nanotubes for Methanol Synthesis

SHEN Bing-Shun, WU Xiao-Man, ZHANG Hong-Bin, LIN Guo-Dong, DONG Xin   

  1. Institute of Chemistry & Chemical Engineering, State Key Laboratory of Physical Chemistry of Solid Surfaces, Xiamen University, Xiamen 361005
  • Received:2004-04-07 Revised:2004-06-26 Published:2014-02-17

利用化学还原沉积法,制备一类Ni高度分散/修饰的多壁碳纳米管基新型材料y%Ni/MWCNT(y%为质量百分数),并用其作为促进剂,制备共沉淀型y%Ni/MWCNT促进的合成气高效合成甲醇Cu-ZnO-Al2O3催化剂,Cu6Zn3Al1-x%(y%Ni/MWCNT)(x%为质量百分数).实验发现,Ni对MWCNT的预修饰能明显地提高单纯MWCNT促进的Cu-ZnO-A12O3催化剂对合成气转化为甲醇的催化活性.在2.0 MPa,493 K,V(H2):V(CO):V(CO2):V(N2)=62:30:5:3,GHSV=2700 mL(STP)·h-1·(g-cat.)-1的反应条件下,所观测CO转化率达34%,相应甲醇时空产率为442 mg·h-1·(g-cat.)-1,分别是非促进的基质催化剂Cu6Zn3Al1[最佳操作温度513 K时为320 mg·h-1·(g-cat.)-1]和单纯MWCNT促进的催化剂Cu6Zn3Al1-12.5%MWCNT[最佳操作温度503 K时为378 mg·h-1·(g-cat.)-1]的1.38和1.17倍.在反应温度≤503 K时产物中甲醇的选择性≥98%;当反应温度>503 K时有可观量CH4的生成,其选择性随催化剂中M含量及反应温度上升而增加.为兼获较高的CO转化率及相应甲醇选择性,催化剂的组成以Cu6Zn3Al1-12.5%(8%Ni/MWCNT)为佳,反应温度以~493 K为宜.结合催化体系的表征(XRD,TPR,TPD)等结果,讨论了y%Ni/MWCNT促进剂的作用本质.

关键词: 多壁碳纳米管, Ni-修饰多壁碳纳米管, Ni修饰碳纳米管促进的Cu基催化剂, 甲醇合成

By using chemical reduction-deposition method, a nickel-modified multi-walled carbon nanotube material, symbolized as y%Ni/MWCNT, was prepared. The H2-TPD measurement showed that the modification of metallic nickel to the MWCNT could significantly enhance its capability of dissociatively adsorbing hydrogen. With the y%Ni/MWCNT as promoter, highly active y% Ni/MWCNT-promoted Cu-ZnO-Al2O3 catalysts, symbolized as Cu6Zn3Al1-x% (y%Ni/MWCNT), were prepared by co-precipitation method. It was experimentally found that appropriate incorporation of a minor amount of the y%Ni/MWCNT into the Cu6Zn3Al1 could significantly enhance the catalyst activity for methanol synthesis. Under the reaction conditions of 2.0 MPa, V(H2):V(CO):V(CO2):V(N2)=62:30:5:3, GHSV=2700 mL(STP)·h-1·(g-cat.)-1, the observed CO-conversion over the Cu6Zn3Al1-12.5% (8%Ni/MWCNT) catalyst reached 34%, with the corresponding methanol-STY at 442 mg·h-1·(g-cat.)-1, which was about 38% and 17% higher than those over the Cu6Zn3Al1 and Cu6Zn3Al1-12.5% MWCNT catalysts as contrast, respectively, at the respective optimal operation temperature, 513 K and 503 K. Characterization of the catalyst revealed that the pre-reduced Cu6Zn3Al1-12.5%(8%Ni/MWCNT) system could reversibly adsorb a considerably greater amount of hydrogen under atmospheric pressure at temperatures ranging from room temperature to ~573 K. This unique feature would be beneficial to generating microenvironments with relatively high stationary-state concentration of active hydrogen-adspecies on surface of the functioning catalyst, thus being favorable to increasing the rate of the CO hydrogenation reactions.

Key words: MWCNT, Ni-modified MWCNT, CuiZnjAlk-x%(y%Ni/MWCNT)catalyst, methanol synthesis