采用共沉淀法和浸渍法制备了高比表面积、大孔容和具有双孔分布的TiO2-Al2O3复合载体,氧化钛掺入量分别为0、5%、10%、15%.运用X射线衍射(XRD)、N2吸附脱附、扫描电镜(SEM)对制备的TiO2-Al2O3复合载体进行了表征.结果表明,在氧化钛含量较低(共沉淀法不大于10%,浸渍法不大于15%)时,两种方法制备的复合载体都保持了γ-Al2O3的骨架结构,即氧化钛在氧化铝中高度分散,浸渍法制备的复合载体中氧化钛的分散性更好.采用共沉淀法制备的复合载体比表面积、孔容等孔结构参数减小幅度较大,而采用浸渍法制备的复合载体孔结构参数减小幅度很小,比表面积都在300m2/g左右,孔容都大于1.0cm3/g,具有双孔分布(3~7nm和20~60 nm).
参考文献
| [1] | Harlé V;Vrinat M;Schraff J P .Catalysis assisted characterizations of nanosized TiO2-Al2O3 mixtures obtained in molten alkali metal nitrates[J].Applied Catalysis A: General,2000,196(04):261. |
| [2] | Damyanova S.;Jiratova K.;Spojakina A. .EFFECT OF MIXED TITANIA-ALUMINA SUPPORTS ON THE PHASE COMPOSITION OF NIMO/TIO2-AL2O3 CATALYSTS[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,1995(2):257-269. |
| [3] | C. Martin;I. Martin;V. Rives;S. Damyanova;A. Spojakina .Characterization and Fourier transform infrared spectroscopic study of surface acidity in NiMo/TiO_2-Al_2O_3 catalysts[J].Spectrochimica Acta. Part A, Molecular Spectroscopy,1995(11):1837-1845. |
| [4] | Segawa K;Takahashi K;Satoh S .Development of new catalysts for deep hydrodesulfurization of gas oil[J].Catalysis Today,2000,63(2-4):123. |
| [5] | Jolanta R.Grzechowiak;Iwona Wereszczako-Zielinska;Jacek Rynkowski;Maria Ziolek .Hydrodesulphurisation catalysts supported on alumina-titania[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,2003(1):95-103. |
| [6] | Pophal C;Kameda F;Hoshino K et al.Hydrodesulfurization of dibenzothiophene derivatives over TiO2-Al2O3 supported sulfided molybdenum catalyst[J].Catalysis Today,1997,39(1-2):21. |
| [7] | 李哲,姜少华,权燕红,许丽,黄伟.Pd/γ-Al2O3-TiO2催化剂上乙醇乙醛的催化氧化性能研究[J].燃料化学学报,2009(01):71-76. |
| [8] | 韦以,刘新香.Al2 O3 - TiO2复合载体的制备与表征[J].石油化工,2006(02):173-177. |
| [9] | 朱永法;桂琳琳;唐有棋 .负载型TiO2/γ-Al2O3体系的制备及其表面状态表征[J].催化学报,1989,10(02):118. |
| [10] | 桂琳琳;朱永法;唐有棋 .MoO3负载在新型TiO/γ-Al2O3载体上的表面状态与性质[J].物理化学学报,1990,6(04):392. |
| [11] | 傅贤智;罗胜成;桂琳琳 等.Mo-Co系加氢精制催化剂中TiO2-Al2O3载体效应的PASCA研究[J].化学学报,1992,50(04):342. |
| [12] | 张长拴,李志勋,张乐,杨吉湍,白玉白,李铁津.超细纳米TiO2/Al2O3复合体的制备及其组成分布的研究[J].化学研究与应用,2000(04):379-382. |
| [13] | 李哲,权燕红,常瑜,许丽,黄伟,谢克昌.纳米γ-Al2O3/TiO2复合载体的制备及表征[J].分子催化,2007(05):417-422. |
| [14] | 罗胜成;桂琳琳;唐有棋 .TiO2-Al2O3复合载体的比较研究[J].物理化学学报,1996,12(01):6. |
| [15] | 温超 .纳米TiO2-Al2O3复合材料的制备及其性能研究[D].大连:大连交通大学,2011. |
| [16] | 张文郁,解秀清,郝国杨,胡文宾,唐昭峥.焙烧温度对TiO2-Al2O3催化剂制备的影响[J].燃料化学学报,2001(z1):77-79. |
| [17] | 史鹏,庞静,吴海东,盛先成,张莹莹.纳米TiO_2-Al_2O_3复合氧化物载体制备研究进展[J].广州化工,2011(18):22-23,35. |
| [18] | Wei Z B;Xin Q;Guo X X .Titania-modified hydrodesulphurization catalyst Ⅰ.Effect of preparation techniques on morphology and properties of TiO2-Al2O3 carrier[J].Applied Catalysis,1990,63(01):305. |
| [19] | Jorge Ramírez;Patricia Rayo;Aída Gutiérrez-Alejandre et al.Analysis of the hydrotreatment of Maya heavy crude with NiMo catalysts supported on TiO2-Al2O3 binary oxides.Effect of the incorporation method of Ti[J].Catalysis Today,2005,109(1-4):54. |
| [20] | 徐如人;庞文琴.分子筛与多孔材料化学[M].北京:科学出版社,2006 |
| [21] | Jose Ortiz-Landeros;Maria Eugenia Contreras-Garcia;Heriberto Pfeiffer .Synthesis of macroporous ZrO_2-Al2O_3 mixed oxides with mesoporous walls, using polystyrene spheres as template[J].Journal of porous materials,2009(4):429-437. |
| [22] | 杨清河,李大东,庄福成,石亚华,康小洪.NH4HCO3对氧化铝孔结构的影响[J].催化学报,1999(02):139-144. |
| [23] | Liu Xinmei;Xue Hongxia;Li Xiang et al.Synthesis and hydrodesulfurization performance of hierarchical mesopores alumina[J].Catalysis Today,2010,158(3-4):446. |
| [24] | 韩易潼,杨鹏冲,孟秀红,鄢景森,王海彦.多级孔TiO2/γ-Al2O3复合载体的制备及表征[J].石油学报(石油加工),2013(05):785-790. |
| [25] | 南军,谢海峰,柴永明,李彦鹏,刘晨光.一种TiO2修饰的Pd/Al2O3选择性加氢用催化剂的研究[J].催化学报,2005(08):672-676. |
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%