催化学报
催化學報
최화학보
CHINESE JOURNAL OF CATALYSIS
2014年
10期
1676-1686
,共11页
朱数金%刘粟侥%张怀科%吕恩静%任杰
硃數金%劉粟僥%張懷科%呂恩靜%任傑
주수금%류속요%장부과%려은정%임걸
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
SAPO-11%Beta分子篩%複閤分子篩%覈殼結構%協同作用%臨氫異構化反應%多支鏈異構體
SAPO-11%Beta분자사%복합분자사%핵각결구%협동작용%림경이구화반응%다지련이구체
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。
以Beta分子篩為硅源通過水熱閤成法閤成瞭SAPO-11/Beta複閤分子篩,採用X射線衍射、N2物理吸脫附、掃描電鏡、透視電鏡-能譜分析、固體覈磁及吡啶紅外等方法對單分子篩、複閤分子篩和機械混閤分子篩的物化性質進行瞭錶徵。以正十二烷為模型化閤物,在固定床反應器上攷察瞭鉑負載型分子篩催化劑的異構化性能。結果錶明,複閤分子篩的物理化學性質明顯不同于單分子篩和機械混閤分子篩,其呈現覈殼結構, SAPO-11和Beta間存在化學作用,使得複閤分子篩具有適宜的B痠分佈。在正十二烷異構化反應中,複閤分子篩催化劑的異構化性能優于單分子篩催化劑和機械混閤分子篩催化劑,多支鏈異構體收率高。
이Beta분자사위규원통과수열합성법합성료SAPO-11/Beta복합분자사,채용X사선연사、N2물리흡탈부、소묘전경、투시전경-능보분석、고체핵자급필정홍외등방법대단분자사、복합분자사화궤계혼합분자사적물화성질진행료표정。이정십이완위모형화합물,재고정상반응기상고찰료박부재형분자사최화제적이구화성능。결과표명,복합분자사적물이화학성질명현불동우단분자사화궤계혼합분자사,기정현핵각결구, SAPO-11화Beta간존재화학작용,사득복합분자사구유괄의적B산분포。재정십이완이구화반응중,복합분자사최화제적이구화성능우우단분자사최화제화궤계혼합분자사최화제,다지련이구체수솔고。
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.