载体改性对Ru/MCM-49催化剂金属粒径及分布的影响

以MCM-49分子筛为前体,经Ca、Mg金属改性后浸渍负载金属Ru,制备得到Ru-Ca/H-MCM-49和Ru-Mg/H-MCM-49催化剂,探索了碱土金属改性对Ru H-MCM-49分子筛催化剂中Ru粒径大小的影响。对所制催化剂进行了XRD、FT-IR、SEM、XPS、CO脉冲吸附和CO原位红外漫反射分析,并通过探针分子反应评价其催化性能。结果表明:改性金属对金属Ru在分子筛中的分布特性影响不大,两种催化剂上的Ru都主要分布于分子筛内部,但是Ca改性的Ru催化剂存在微孔堵塞现象;改性金属种类可以显著影响催化剂中Ru粒子的粒径,与Ca改性催化剂相比,Mg改性可以更好分散金属Ru,Ru粒子粒径约为2.7 nm,Ru-Mg/H-MCM-49具有更好的催化探针分子加氢性能。Ru-Mg/H-MCM-49催化剂对CO的吸附方式为多分子线性吸附,其对反应物分子的吸附和活化作用较强,有利于提高催化剂的加氢活性。

HYDROXYLATION OF PHENOL BY IRON(Ⅱ)-PHENANTHROLINE(PHEN)/MCM-41 ZEOLITE

MCM-41 zeolite and Iron (Ⅱ) -Phen/MCM-41 zeolite have been preparedand characterized by XRD,IR, NH3-TPD, BET and UV-Vis. The Iron(Ⅱ)-Phen/MCM-41 zeolite+30% H2O2 system is capable for catalyzing hydroxylation of Phenol.

Exploring suitable ZSM-5/MCM-41 zeolites for catalytic cracking of n-dodecane: Effect of initial particle size and Si/Al ratio

In this study,various ZSM-5/MCM-41 micro/mesoporous zeolite composites have been prepared by alkalidesilication and surfactant-directed recrystallization of ZSM-5.The effects of particle size and Si/Al ratio of initial ZSM-5 zeolites on the structure and catalytic performance of ZSM-5/MCM-41 composites are studied.The results of XRD,TEM N_2-adsorption-desorption,NH_3-TPD and in situ FT-IR revealed that ordered hexagonal MCM-41 mesopores with 3-4 nm pore size were formed around ZSM-5 crystals,and the specific surface area and mesopore volume of composites increased with increasing the Si/Al ratio of initial ZSM-5.Catalytic cracking of n-dodecane(550℃,4 MPa) showed that the ZSM-5/MCM-41 composites obtained from the high Si/Al ratio and nano-sized initial ZSM-5 zeolites exhibited superior catalytic performance,with the improvement higher than 87%in the catalytic activities and 21%in the deactivation rate compared with untreated zeolites.This could be ascribed to their suitable pore structure,which enhanced the diffusion of reactant molecules in pores of catalysts.

Study on Mechanism for Alkylation of Benzene with Propylene over β Zeolite and MCM-22 Zeolite by In-situ IR Spectrometry

The reaction mechanism for alkylation of benzene with propylene over the β zeolite and the MCM-22 zeolite were investigated respectively by in-situ IR spectrometry. Three types of experiments were carried out. （1） IR spectra of the gas-phase propylene, benzene and isopropyl benzene were recorded. （2） IR spectra of the above-mentioned substances as adsorbates that have combined with the zeolite wafer were recorded. （3） IR spectra of the reaction modes were recorded. The test results showed that the alkytation reaction over the zeolite β was ascribed to the mechanism of carbonium ions, whereas the alkylation reaction over the zeolite MCM-22 was ascribed to the synchronous reaction mechanism.

Skeletal Isomerization of 1-Hexene over MCM-22 Zeolite Catalyst

The performance of MCM-22 zeolite for catalytic isomerization of 1-hexene has been studied. At a n(H2)/n(1-hexene) ratio of 8, the influence of steam treatment temperature, reaction temperature and reaction pressure on the performance of MCM-22 zeolite for catalytic skeletal isomerization of 1-hexene was examined. The experimental results showed that at a steam treatment temperature of 500℃, a reaction temperature of 270℃, a space velocity of 1.0 h-1 and a reaction pressure of 0.2 MPa, the MCM-22 zeolite exhibited excellent performance for catalytic skeletal isomerization of 1-hexene with the i-hexene yield reaching 66.15%. Compared with other commonly used molecular sieve catalysts, the MCM-22 zeolite catalyst exhibited better catalytic performance for skeletal isomerization of 1-hexene.

Zeolite Catalyst MCM-94 for Alkylation Reaction Tested in Pilot Scale at Jilin Petrochemical Company

The project for application of alkylation catalyst composed of MCM-49 zeolite,the intellectual property rights of which is possessed by the Jilin Petrochemical Company,is ready for pilot tests on the sideline before its application in the acetone-phenol unit.The

纳米级MCM-49分子筛催化苯与1-十二烯烷基化反应的性能

在低碱度下合成了纳米级MCM 4 9分子筛 ,采用XRD ,TEM ,NH3 TPD ,吸附吡啶的红外光谱和异丙苯裂解等技术对分子筛进行了表征 .催化剂评价结果表明 ,纳米级MCM 4 9分子筛在 30～ 16 0℃下对苯与 1 十二烯的烷基化反应具有良好的催化性能 ,烯烃的转化率高于 99 6 % ,直链烷基苯的选择性大于 97% ,2 和 3 位直链烷基苯的选择性大于 6 7 5 % .常规的微米级MCM 4 9分子筛在低温下的催化活性低于纳米级MCM 4 9分子筛 .ZSM 5 ,M型分子筛和MCM 4 1分子筛催化烷基化反应的活性较低 ,Y型分子筛虽具有较高的催化活性 ,但生成 2 和 3 位直链烷基苯的选择性明显低于MCM 4 9.MCM 4 9的骨架结构与MCM 2 2相似 ,晶体外表面上含有大量的 12元环孔穴 ,该结构有利于烷基化反应的进行 .

MCM-49分子筛的合成及其对烷基化反应的催化性能

The MCM 49 zeolite was successfully synthesized using an organic mixture solution (OMS) yielded from hydrogenation of caprolactam as the template instead of the pure hexamethyleneimine (HMI). The OMS contains HMI (76 0%～84 0%), caprolactam (1 0%～10 0%), water, and a few by products. So the synthesis cost of the MCM 49 zeolite decreases obviously. The MCM 49 zeolite synthesized using OMS as the template shows similar crystallinity and purity to that synthesized using pure HMI in conventional process. From the results of NH 3 TPD, N 2 adsorption isotherm, and DTA, it is evident that the MCM 49 zeolite possesses three kinds of acidic centers with different strength, and has a high specific surface area and good thermostability. Furthermore, the MCM 49 zeolite shows good catalytic behavior for the alkylation of benzene with dilute ethylene to ethylbenzene.

磷酸修饰MCM-49分子筛的结构、酸性及苯与丙烯液相烷基化反应催化性能

在10L反应釜中用动态水热法合成了MCM-49分子筛,采用浸渍方法制备了磷酸修饰MCM-49分子筛,并用XRD,氮气吸附-脱附,NH3-TPD,FTIR和27AlMAS-NMR等方法进行了表征.考察了磷酸修饰MCM-49分子筛在苯与丙烯液相烷基化反应中的催化性能.NH3-TPD和FTIR表征结果说明,磷酸修饰处理使MCM-49分子筛的Brnsted酸和Lewis酸的酸量降低,强酸中心酸量略有降低.27AlMAS-NMR结果表明磷酸修饰使MCM-49分子筛骨架部分脱铝,脱除的铝与磷酸作用生成了磷铝酸盐.在实验条件下,MCM-49分子筛的丙烯转化率为99.6%,异丙苯选择性为75.3%.磷酸修饰处理提高了苯与丙烯液相烷基化反应产物中异丙苯的选择性.磷负载质量分数为2.0%的MCM-49的丙烯转化率和烷基化产物的总选择性(包括异丙苯、二异丙苯和三异丙苯)与MCM-49相当,而异丙苯的选择性提高了7.2%.

超声老化对MCM-49分子筛合成的影响

以六亚甲基亚胺为模板剂,在静态水热合成条件下,考察了超声老化对MCM-49分子筛合成的影响.结果表明,凝胶经超声老化处理后,即使使用比表面积小的硅源(硅胶或白碳黑)也能合成出不含杂晶且结晶良好的MCM-49分子筛.超声老化处理缩短了MCM-49分子筛的晶化时间,扩大了分子筛的晶化范围,同时降低了模板剂的用量.合成的MCM-49分子筛结晶度高,颗粒度小.

脱铝MCM-49分子筛的结构、酸性及苯与丙烯液相烷基化催化性能研究

采用硝酸回流和水蒸气两种处理方法对用动态水热法合成的纳米MCM-49分子筛进行脱铝改性.用XRD、氮气吸附-脱附、NH3-TPD、FTIR和NMR等技术进行了表征,并考察了脱铝前后MCM-49分子筛在苯与丙烯液相烷基化反应中的催化性能.27Al核磁共振谱表明,硝酸回流和水蒸气处理能有效地脱除MCM-49分子筛的部分骨架铝和非骨架铝.NH3-TPD和FTIR表征结果表明,脱铝降低了MCM-49分子筛的Brnsted酸和Lewis酸的酸量.硝酸脱铝未改变分子筛的酸强度分布,而在600℃水蒸气脱铝则造成酸强度的降低.实验条件下,MCM-49分子筛的丙烯转化率为99·5%,异丙苯的选择性为73·6%.脱铝改性降低了烷基化反应活性和异丙苯的选择性,提高了收率.与脱铝前MCM-49分子筛相比,常温下经硝酸处理5h的脱铝MCM-49分子筛在保持催化活性相当的情况下,异丙苯收率提高了5·3%.

新型甲烷无氧芳构化催化剂MoO_3/MCM-49

MoO3/MCM-49 has been synthesized under the special condition and it shows a high activity and selectivity for nonoxidative aromatization of methane with a long lifetime and extreme capacity of anti-coking. MoO3/MCM-49 is considered as a very promising catalyst for the title reaction.

MCM-49与ZSM-35的共结晶及混合物的芳构化性能比较

采用1-丁烯脉冲反应和程序升温表面反应（TPSR）,研究了MCM-49与ZSM-35的共结晶及机械混合物的芳构化催化性能,并与纯MCM-49和纯ZSM-35的催化性能相比较。结果表明,在1-丁烯的TPSR反应中,虽然ZSM-35的芳构化催化性能很差,但是MCM-49/ZSM-35共结晶的芳构化催化能力并未随其中ZSM-35含量的增加而下降,尤其是MCM-49质量分数为52%的MCM-49与ZSM-35共结晶的非苯芳烃生成量比纯MCM-49分子筛高出约20%,其生成非苯芳烃的信号峰温显著低于纯MCM-49（-10℃）,表现出明显的协同效应;机械混合物中的MCM-49与ZSM-35在催化丁烯芳构化过程中也存在一定相互作用,但明显弱于共结晶分子筛。

混合胺体系中MCM-49/ZSM-35复合分子筛的晶化过程

采用X射线衍射、N2吸附-脱附、扫描电镜和傅里叶变换红外光谱等技术,研究了MCM-49/ZSM-35复合分子筛在Na2O-SiO2-Al2O3-CHA(环己胺)-HMI(六亚甲基亚胺)-H2O合成体系中,先在低温80°C老化4h,再经160°C晶化不同时间的演变过程.结果表明,在该混合胺体系中,首先生成MCM-49分子筛,随着晶化时间的延长,形成ZSM-35含量逐渐增加的MCM-49/ZSM-35复合分子筛,最后生成纯ZSM-35分子筛;ZSM-35的生成是以MCM-49分子筛的消耗为代价的.

以微孔沸石MCM-49和MCM-56为硅铝源合成强酸性介孔分子筛

以相同硅铝比的微孔沸石MCM-49和MCM-56为硅铝源,通过碱处理和十六烷基三甲基溴化铵模板剂,合成了具有较强酸性的六方结构介孔分子筛材料MM-49和MM-56,并采用XRD、红外光谱、氮气吸附-脱附等方法对其进行了结构表征,采用NH3-TPD和IR-吡啶吸附方法对其进行了酸性表征.实验结果表明,MM-56和MM-49具有明显强于常规介孔分子筛酸性的特点,在苯酚与叔丁醇的烷基化反应中表现了良好的催化性质.

MCM-49分子筛的合成及催化性能

以六亚甲基亚胺(HMI)为模板剂,采用水热合成法合成了MCM-49分子筛,考察了静态合成条件对合成的影响.用XRD,IR和NH3-TPD等测试手段对合成产品的物相和酸性进行分析和表征,结果表明:n(H2O)∶n(SiO2)=35～40,n(HMI)∶n(SiO2)=0.5和n(SiO2)∶n(Al2O3)=20～35,晶化72h可以稳定合成出MCM-49分子筛,合成的样品在1-丁烯骨架异构化反应中表现出良好的催化性能.

在Ba-MCM-49分子筛催化剂上1-丁烯的裂解反应

以Ba-MCM-49分子筛为催化剂,纯1-丁烯为原料,考察了钡的含量对烯烃催化裂解制丙烯、乙烯反应性能的影响,并在优化的反应条件下考察了催化剂的稳定性.实验表明,适量的钡修饰可以在一定程度上抑制氢转移及芳构化副反应的发生,从而提高了目标产物丙烯和乙烯的选择性,而且钡修饰后催化剂的稳定性大大提高.

MCM-49分子筛催化剂上-1丁烯的骨架异构化反应

采用动态和静态水热合成法合成了不同Si/Al比的MCM 4 9分子筛 ,并考察了合成分子筛对 1 丁烯骨架异构化反应的催化性能 .结果表明 ,除目的产物异丁烯外 ,主要副产物为丙烯和戊烯 ,产物中没有检测到C6以上的副产物 .异丁烯收率随着反应温度的升高、分子筛晶粒的增大和 1 丁烯分压的降低而升高 .NH3 TPD结果表明 ,随着分子筛Si/Al比的增加 ,分子筛的酸中心数减少 ,导致副产物选择性下降 ,异丁烯选择性升高 .根据反应结果讨论了异丁烯及副产物形成的机理 .

甲烷水蒸气重整与甲烷无氧芳构化反应耦合提高Mo/MCM-49催化剂稳定性(英文)

甲烷无氧芳构化(MDA)和甲烷水蒸气重整(MSR)的耦合反应可以大幅度提高甲烷无氧芳构化反应的稳定性.单独的甲烷无氧芳构化反应失活较快,甲烷转化率从0.5h的14.5%很快下降至15h的3.5%.而采用联合MSR/MDA反应体系,甲烷的转化率从12.5h的11.5%非常缓慢地下降至60h后的6.5%.MSR反应原位生成的CO和H2能降低反应中生成的CHx物种数量,减少催化剂上积炭的生成,进而延长反应时间.MSR反应过程中高比例H2的生成更能有效地减少与B酸相关的积炭的生成,从而更好地抑制反应的失活.

10L釜体系下MCM-49分子筛的动态合成

为了考察实验室小规模分子筛材料的制备方法,能否应用于较大规模的分子筛生产,研究了10L釜规模下,MCM-49分子筛的动态合成规律.通过对晶化时间、温度、模板剂用量、水量、硅铝比、搅拌速率、物料添加速率等影响因素的研究,得出了较大规模分子筛合成的一些规律性和特点.结果表明,实验室小规模的MCM-49合成方法,完全可以应用于10 L体系分子筛的合成,并且可以进一步优化.