采用共沉淀法制备了Co/CeO2催化剂并将其应用于乙醇水蒸气重整制氢反应,考察了活性组分含量和焙烧温度对催化剂性能的影响. 结果表明,在原料气水∶乙醇∶N2摩尔比为3∶1∶16, 空速为40 L/(g·h)和反应温度为350~600 ℃的条件下, 经650 ℃焙烧的10%Co/CeO2催化剂对乙醇水蒸气重整制氢反应具有高活性和高选择性. 在500 ℃下进行的40 h稳定性测试中,该催化剂上的乙醇转化率始终接近100%, 反应后气体中的H2含量保持在65%左右. X射线衍射表征结果显示,焙烧后催化剂的主要物相组成为Co3O4和CeO2, 二者之间存在相互作用. Co/CeO2催化剂中钴的主要存在形式包括小晶粒的钴氧化物、大晶粒Co3O4和进入CeO2晶格的钴,Co3O4含量和焙烧温度的改变可影响催化剂中钴的存在形式. 由催化剂中高分散小晶粒的钴氧化物还原所得的金属钴是关键的活性组分.
参考文献
| [1] | Fishtik I;Alexander A;Datta R;Geana D .[J].International Journal of Hydrogen Energy,2000,25(01):31. |
| [2] | Haryanto A;Fernando S;Murali N;Adhikari S .[J].Energy and Fuels,2005,19(05):2098. |
| [3] | Deluga GA;Salge JR;Schmidt LD;Verykios XE .Renewable hydrogen from ethanol by autothermal reforming[J].Science,2004(5660):993-997. |
| [4] | Llorca J;de la Piscina P R;Sales J;Homs N.[J].Chemical Communications,2001(07):641. |
| [5] | Breen J P;Burch R;Coleman H M .[J].Applied Catalysis B:Environmental,2002,39(01):65. |
| [6] | Navarro RM;Alvarez-Galvan MC;Sanchez-Sanchez MC;Rosa F;Fierro JLG .Production of hydrogen by oxidative reforming of ethanol over Pt catalysts supported on Al2O3 modified with Ce and La[J].Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications,2005(4):229-241. |
| [7] | Liguras D K;Kondarides D I;Verykios X E .[J].Applied Catalysis B:Environmental,2003,43(04):345. |
| [8] | Cavallaro S;Chiodo V;Vita A;Freni S .[J].Journal of Power Sources,2003,123(01):10. |
| [9] | Diagne C;Idriss H;Kiennemann A .[J].Catalysis Communications,2002,3(12):565. |
| [10] | Aupretre F;Descorme C;Duprez D;Casanave D;Uzio D .Ethanol steam reforming over MgxNi1-xAl2O3 spinel oxide-supported Rh catalysts[J].Journal of Catalysis,2005(2):464-477. |
| [11] | Freni S;Cavallaro S;Mondello N;Spadaro L, Frusteri F .[J].Journal of Power Sources,2002,108(1-2):53. |
| [12] | Frusteri F;Freni S;Chiodo V;Spadaro L, Bonura G, Cavallaro S .[J].Journal of Power Sources,2004,132(1-2):139. |
| [13] | Srinivas D;Satyanarayana C V V;Potdar H S;Ratnasamy P .[J].Applied Catalysis A:General,2003,246(02):323. |
| [14] | 杨宇,吴绯,马建新.载体对镍催化剂催化乙醇水蒸气重整制氢反应性能的影响[J].催化学报,2005(02):131-137. |
| [15] | Mario F;Boveri M;Baronetti G;Laborde M .[J].International Journal of Hydrogen Energy,2001,26(07):665. |
| [16] | Comas J;Mario F;Laborde M;Amadeo N .[J].Chemical Engineering Journal,2004,98(1-2):61. |
| [17] | Batista M S;Santos R K S;Assaf E M;Assaf J M, Ticianelli E A .[J].Journal of Power Sources,2003,124(01):99. |
| [18] | Batista M S;Santos R K S;Assaf E M;Assaf J M, Ticianelli E A .[J].Journal of Power Sources,2004,134(01):27. |
| [19] | Urasaki K;Tokunaga K;Sekine Y;Kikuchi E, Matsukata M .[J].Chemistry Letters,2005,34(05):668. |
| [20] | Llorca J;Homs N;de la Piscina PR .In situ DRIFT-mass spectrometry study of the ethanol steam-reforming reaction over carbonyl-derived Co/ZnO catalysts[J].Journal of Catalysis,2004(2):556-560. |
| [21] | Llorca J;Homs N;Sales J;de la Piscina P R .[J].Journal of Catalysis,2002,209(02):306. |
| [22] | Llorca J;Homs N;Sales J;Fierro J-L G, de la Piscina P R .[J].Journal of Catalysis,2004,222(02):470. |
| [23] | Cavallaro S;Mondello N;Freni S .[J].Journal of Power Sources,2001,102(1-2):198. |
| [24] | Gorte R J;Zhao S .[J].Catalysis Today,2005,104(01):18. |
| [25] | Cavallaro S.;Chiodo V.;Freni S.;Mondello N.;Frusteri F. .Performance of Rh/Al2O3 catalyst in the steam reforming of ethanol: H-2 production for MCFC[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,2003(1):119-128. |
| [26] | Nishiguchi T;Matsumoto T;Kanai H;Utani K;Matsumura Y;Shen WJ;Imamura S .Catalytic steam reforming of ethanol to produce hydrogen and acetone[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,2005(1/2):273-277. |
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%