Ni/Mo/N间隙型催化剂具有高的加氢活性及良好耐硫性,可应用于煤液化油加氢精制高性能喷气燃料.N原子由于只占据晶格间隙位置,在进入Ni/Mo过程中会因不占据晶格中的特定晶位,容易从金属晶格溢出导致无法形成稳定的Ni/Mo/N间隙型催化剂.为此,本文利用前驱体晶型控制的方式来实现Ni/Mo/N催化剂合成.采用络合物分解一步法,考察了不同结晶过程和老化时间对合成的Ni/Mo/N催化剂用于苯加氢反应活性影响,并采用X射线衍射、X射线光电子能谱和透射电镜-能量色散X射线光谱对催化剂结构组成进行表征.XRD分析结果显示,钼酸铵[(NH4)6Mo7O24·4H2O]、乙酸镍[Ni(CH3COO)2·4H2O]和六亚甲基四胺(HMT)添加顺序、结晶过程和老化时间直接影响催化剂组成,并决定Ni/Mo/N晶相的形成.结晶过程慢速搅拌速度和短老化时间有利于合成含Ni2Mo3N,Mo2C和Ni晶相的高活性Ni/Mo/N间隙型催化剂,使苯加氢制环己烷模型反应苯的最大转化率达93%,环己烷选择性为100%.含0.01 wt%噻吩的存在使苯转化率由72%降至50%,XPS分析结果表明,催化剂表面形成的MoS2是催化剂活性降低的重要因素.
参考文献
| [1] | Fechete I;Wang Y;Védrine J C .[J].Catalysis Today,2012,189:2. |
| [2] | EPA .[OL].http://www.epa.gov/otaq/highway-diesel/regs/ria-iv.pdf |
| [3] | EPA .[OL].http://yosemite.epa.gov/r9/r9sips.nsf/agencyprovision/f11ad4fd00ff46f08825784000795b81/$file/section+2282.pdf? op enelement |
| [4] | Zheng J;Guo M;Song CS .[J].Fuel Processing Technology,2008,89:467. |
| [5] | Abe J;Ma X;Song C S .[J].Prepr Pap:Am Chem Soc Div Fuel Chem,2003,48:609. |
| [6] | Shao J Y;Song C S .[J].Catalysis Today,2001,65:59. |
| [7] | Chen J G .[J].Chemical Reviews,1996,96:1477. |
| [8] | Chen W F;Sasaki K;Ma C;Frenkel A I,Marinkovic N,Muckerman J T,Zhu Y M,Adzic R R.[J].Angewandte Chemie International Edition in English,2012:1. |
| [9] | Prior TJ;Battle PD .[J].Journal of Solid State Chemistry,2003,172:138. |
| [10] | Sundaramurthy V;Dalai A K;Adjaye J .[J].Applied Catalysis A:General,2008,335:204. |
| [11] | Weil K S;Kumta P N;Grins J .[J].Journal of Solid State Chemistry,1999,146:22. |
| [12] | Chouzier, S.;Czeri, T.;Roy-Auberger, M.;Pichon, C.;Geantet, C.;Vrinat, M.;Afanasiev, P. .Decomposition of molybdatehexamethylenetetramine complex: One single source route for different catalytic materials[J].Journal of Solid State Chemistry,2011(10):2668-2677. |
| [13] | Herle PS.;Sooryanarayana K.;Row TNG.;Subbanna GN.;Hegde MS. .Ni2Mo3N: A new ternary interstitial nitride with a filled beta-manganese structure[J].Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics,1998(16):4128-4130. |
| [14] | Chouzier S;Afanasiev P;Vrinat M;Cseri T Roy-Auberger M .[J].Journal of Solid State Chemistry,2006,179:3314. |
| [15] | Wang H M;Li W;Zhang M H .[J].Chemistry of Materials,2005,17:3262. |
| [16] | Wang H M .Synthesis and Hydrogenation Performance of Transition Metal Nitride Catalysts[D].天津:南开大学,2006. |
| [17] | Wu Z L;Li C;Wei Z B;Ying P L Xin Q .[J].Journal of Physical Chemistry B,2002,106:979. |
| [18] | Agwara M O;Ndifon P T;Ndikontar M K .[J].Bulletin of the Chemcial Society of Ethiopia,2004,18:143. |
| [19] | Lemme rer A .[J].Acta Crystall Sec B,2011,67:177. |
| [20] | Agwara M O;Yufanyi M D;Foba-Tendo J N;Atamba M A Ndinteh D T .[J].J Chem Pharm Res,2011,3:196. |
| [21] | Bem D S;Gibson C P;zur Loye H C .[J].Chemistry of Materials,1993,5:397. |
| [22] | Korlann S.;Diaz B.;Bussell ME. .Synthesis of bulk and alumina-supported bimetallic carbide and nitride catalysts[J].Chemistry of Materials,2002(10):4049-4058. |
| [23] | Wei Z B;Zhao B;Grange P;Delmon B .[J].Applied Surface Science,1998,135:107. |
| [24] | 郭家秀,梁娟,楚英豪,尹华强,陈耀强.Ni物种形态对Ni/AC催化剂低温脱硫性能的影响[J].催化学报,2010(03):278-282. |
| [25] | Mamède A S;Giraudon J M;L(o)fberg A;Leclercq L Leclercq G .[J].Applied Catalysis A:General,2002,227:73. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%