SAPO-11/Beta复合分子筛的合成及其异构化性能研究

催化学报 , 2014, (10): 1676-1686. doi: 10.1016/S1872-2067(14)60133-9

SAPO-11/Beta复合分子筛的合成及其异构化性能研究

朱数金 ^1, , 刘粟侥 ^2, , 张怀科 ^3, , 吕恩静 ^4, , 任杰 ^5,

1.中国科学院山西煤炭化学研究所煤转化国家重点实验室，山西太原030001; 中国科学院大学，北京100049

2.中国科学院山西煤炭化学研究所煤转化国家重点实验室，山西太原030001; 中国科学院大学，北京100049

3.中国科学院山西煤炭化学研究所煤转化国家重点实验室，山西太原030001; 中科合成油技术有限公司煤液化国家能源中心，北京101407

4.中科合成油技术有限公司煤液化国家能源中心,北京,101407

5.中国科学院山西煤炭化学研究所煤转化国家重点实验室，山西太原030001; 中科合成油技术有限公司煤液化国家能源中心，北京101407

关键词： SAPO-11 , Beta分子筛 , 复合分子筛 , 核壳结构 , 协同作用 , 临氢异构化反应 , 多支链异构体

Investigation of synthesis and hydroisomerization performance of SAPO-11/Beta composite molecular sieve

Keywords： SAPO-11 , Beta molecular sieve , Composite molecular sieve , Core-shell structure , Synergistic effect , Hydroisomerization , Multibranched isomers

以Beta分子筛为硅源通过水热合成法合成了SAPO-11/Beta复合分子筛，采用X射线衍射、N2物理吸脱附、扫描电镜、透视电镜-能谱分析、固体核磁及吡啶红外等方法对单分子筛、复合分子筛和机械混合分子筛的物化性质进行了表征。以正十二烷为模型化合物，在固定床反应器上考察了铂负载型分子筛催化剂的异构化性能。结果表明，复合分子筛的物理化学性质明显不同于单分子筛和机械混合分子筛，其呈现核壳结构， SAPO-11和Beta间存在化学作用，使得复合分子筛具有适宜的B酸分布。在正十二烷异构化反应中，复合分子筛催化剂的异构化性能优于单分子筛催化剂和机械混合分子筛催化剂，多支链异构体收率高。

The SAPO-11/Beta composite molecular sieve was synthesized by the hydrothermal method with zeolite Beta as the silicon source. The physicochemical properties of SAPO-11, Beta molecular sieve, the composite molecular sieve, and the mechanical mixture of SAPO-11 and Beta molecular sieve were characterized by X-ray diffraction, N2 adsorption-desorption, scanning electron microscopy, transmission electron microscopy-energy dispersive spectroscopy, magic-angle spinning nuclear magnetic resonance, and pyridine adsorption infrared spectroscopy. In addition, the catalytic per-formance of platinum-loaded zeolite samples in the hydroisomerization of n-dodecane was investi-gated. The results indicate that the properties and catalytic performance of the composite molecular sieve were quite different from those of the pure zeolites and the mechanical mixture. Compared with the mechanical mixture, the combination of SAPO-11 and Beta by chemical bonds was more tightly bound in the composite molecular sieve with a core-shell structure. The acidity and pore structure of the composite were favorable for catalytic performance in the hydroisomerization of n-dodecane. The composite catalyst was superior to the other catalysts, especially in the yield of multibranched isomers.

参考文献

[1]	Chao K J;Wu H C;Leu L J .[J].Applied Catalysis A:General,1996,143:223.
[2]	Eswaramoorthi I;Geetha Bhavani A;Lingappan N .[J].Applied Catalysis A:General,2003,253:469.
[3]	Nghiem V T;Sapaly G;Mériaudeau P;Naccache C .[J].Topics in Catalysis,2001,14:131.
[4]	Elangovan S P;Hartmann M .[J].Journal of Catalysis,2003,217:388.
[5]	Liu P;Yao Y;Wang J .[J].Reac Kinet Mech Catal,2010,101:465.
[6]	Zhang A H;Nakamura I;Aimoto K;Fujimoto K .[J].Industrial and Engineering Chemistry Research,1995,34:1074.
[7]	Kingeretal G;Majdal D;Vinek H .[J].Applied Catalysis A:General,2002,225:301.
[8]	Kusakari T;Tomishige K;Fujimoto K .[J].Applied Catalysis A:General,2002,224:219.
[9]	Miller S J .[P].US Patent 5 149 421,1992.
[10]	Parton R;Uytterhoeven L;Martens J A;Jacobs P A Froment G F .[J].Applied Catalysis A:General,1991,76:131.
[11]	孙霞,黄卫国,康小洪.复合分子筛催化剂在正十六烷临氢异构化反应中协同作用的研究[J].石油炼制与化工,2010(06):1-6.
[12]	Fan Y;Lei D;Shi G;Bao X J .[J].Catalysis Today,2006,114:388.
[13]	王博,张喜文,马波,张志智.复合分子筛合成机理的研究进展[J].当代化工,2009(04):412-414,419.
[14]	Roldán R;Romero F J;Jiménez-Sanchidrián C;Marinas J M Gómez J P .[J].Applied Catalysis A:General,2005,288:104.
[15]	Chao K J;Lin C C;Lin C H;Wu H C Tseng C W Chen S H .[J].Applied Catalysis A:General,2000,203:211.
[16]	张胜振,陈胜利,董鹏,纪智勇,赵俊颖,徐克琪.小晶粒SAPO-11分子筛的合成及其催化异构化性能[J].催化学报,2007(10):857-864.
[17]	刘平,任杰,孙予罕.改进水热法合成SAPO-11及其酸性和异构化活性[J].催化学报,2008(04):379-384.
[18]	Guo, L.;Fan, Y.;Bao, X.;Shi, G.;Liu, H..Two-stage surfactant-assisted crystallization for enhancing SAPO-11 acidity to improve n-octane di-branched isomerization[J].Journal of Catalysis,2013:162-173.
[19]	Hu Y F;Wang X S;Guo X W;Li S L Hu S Sun H B Bai L .[J].Catalysis Letters,2005,100:59.
[20]	Meriaudeau P.;Nghiem VT.;Lai SY.;Hung LN.;Naccache C.;Tuan VA. .SAPO-11, SAPO-31, AND SAPO-41 MOLECULAR SIEVES - SYNTHESIS, CHARACTERIZATION, AND CATALYTIC PROPERTIES IN N-OCTANE HYDROISOMERIZATION[J].Journal of Catalysis,1997(1):55-66.
[21]	黄卫国,李大东,石亚华,康小洪,孟宪波,王奎,董维正,聂红,李灿.分子筛催化剂上正十六烷的临氢异构化反应[J].催化学报,2003(09):651-657.
[22]	Wang X X;Guo Sh Q;Zhao L F .[J].Bulletin of the Korean Chemical Society,2013,34:3829.
[23]	Zhang X;Wang J W;Zhong J;Liu A S Gao J K .[J].Microporous Mesopo-rous Mater,2008,108:13.
[24]	Lok B M;Messina C A;Patton R L;Gajek R T,Cannan T R,FlanigenE M .[P].US Patent 4 440 871,1984.
[25]	刘平,REN Jie,孙予罕.合成条件对SAPO-11分子筛骨架Si分布的影响[J].石油学报（石油加工）,2008(04):388-393.
[26]	Gregg S J;Sing K S W.Adsorption,Surface Area and Porosity.2nd Ed[M].London,UK:Academic Press,1982:154.
[27]	李玉平,潘瑞丽,霍全,张伟,窦涛,谢克昌.一种合成高水热稳定性微孔-介孔复合分子筛β沸石/MCM-41的新方法[J].无机化学学报,2005(10):1455-1459.
[28]	Li J;Tan Y S;Zhang Q D;Han Y Z .[J].FUEL,2010,89:3510.
[29]	Meriaudeau P;Tuan V A;Lefebvre F;Nghiem V T Naccache C .[J].Microporous Mesoporsous Mater,1998,22:435.
[30]	Huang X D;Wang L J;Kong L D;Li Q Z .[J].Applied Catalysis A:General,2003,253:461.
[31]	Zhang H Y;Xie B;Meng X J;Müller U Yilmaz B Feyen M Maurer S Gies H Tatsumi T Bao X H Zhang W P De Vos D Xiao F S .[J].Mi-croporous Mesoporous Mater,2013,180:123.
[32]	Mintova, S;Valtchev, V;Onfroy, T;Marichal, C;Knozinger, H;Bein, T .Variation of the Si/Al ratio in nanosized zeolite Beta crystals[J].Microporous and Mesoporous Materials,2006(1/3):237-245.
[33]	李冰,田鹏,齐越,张琳,徐舒涛,苏雄,樊栋,刘中民.SAPO-11分子筛晶化过程研究[J].催化学报,2013(03):593-603.
[34]	张哲,宗保宁.ZSM-5（核）/AlPO4-5（壳）双结构分子筛的合成与催化裂化性能[J].催化学报,2003(11):856-860.
[35]	Huang Y N;Richer R;Kirby C W .[J].Journal of Physical Chemistry B,2003,107:1326.
[36]	H?chtl M;Jentys A;Vinek H .[J].Catalysis Today,2001,65:171.
[37]	H?chtl M;Jentys A;Vinek H .[J].Journal of Catalysis,2000,190:419.
[38]	邓鹏,聂聪,李全芝.SAPO-11中硅含量对长链烷烃加氢异构化反应的影响[J].复旦学报(自然科学版),2001(04):387-391.
[39]	Claude M C;Martens J A .[J].Journal of Catalysis,2000,190:39.

上一张下一张

计量

下载量()
访问量()

作者相关

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网