Physicochemical and catalytic properties of Ga and In pentasils in the reaction of propane aromatization

Ga and In ZSM-5 zeolites are obtained via hydrothermal crystallization from alkali aluminosilicate gels. Their physicochemical and catalytic properties during conversion of propane into aromatic hydrocarbons are studied. These catalysts exhibit different activity and selectivity in propane aromatization process due to their specific physicochemical properties and the localization of promoter atoms in different sites of the zeolite structure. A zeolite containing 1.85 wt % of gallium oxide is the most effective catalyst for propane aromatization.     

Study of the properties of pentasil-containing catalysts in reactions of transformation of hydrocarbons

The kinetics of transformations of propane and propylene on pentasils modified with zinc, Zn/HTsVM, and the H form of zeolite were investigated. Quantitative data were obtained which revealed significant differences for HTsVM and Zn-containing catalysts in the selectivity of transformations of propane with different degrees of its conversion. The promoting effect of Zn in the Zn/HTsVM system not only on the stage of dehydrogenation of propane into propylene, but also on subsequent transformations of propylene into aromatic hydrocarbons, was demonstrated. The absence of internal diffusion inhibition of the reaction in the conditions studied was demonstrated experimentally. It was shown that aromatization of propane takes place in the kinetic region.For previous communication, see [1].Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 4, pp. 727–733, April, 1990.     

Study of the properties of pentasil-containing catalysts in reactions of transformation of hydrocarbons 5. Kinetics and mechanism of aromatization of propane and propylene on Ga and H forms of pentasils

The kinetics of transformations of propane and propylene on Ga-modified pentasils and the H-form of zeolite were investigated in a wide range of conversions (20–95%). The selectivity of formation of aromatic hydrocarbons (ArH) on Ga-pentasils is significantly higher than on HTsVM. Quantitative data which demonstrate acceleration of aromatization of propane and propylene in modification of H-TsVM zeolite with gallium were obtained. An especially large increase in the reaction rate is observed in the case of the starting olefin: the rate constants on Ga/HTsVM and HTsVM are respectively equal to 9.21 and 1.44 sec^–1. The significant effect of H₂ on the selectivity of action of the Zn/HTsVM system in aromatization of propane was demonstrated. The effect of H₂ was virtually not manifested on Ga/HTsVM in the conditions studied. The data obtained in the study permitted introducing important corrections in the scheme of the mechanism of aromatization of lower alkanes examined in the literature.For communications 3 and 4, see [1, 10].Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 6, pp. 1250–1257, June, 1990.     

HZSM-5分子筛上甲醇制烯烃典型产物的传质行为研究

分子筛催化甲醇制烯烃反应(MTO)是典型的扩散主导反应过程,运用频率响应技术系统研究了几种典型产物分子(乙烯/乙烷、丙烯/丙烷、苯)在HZSM-5分子筛上的扩散行为。结果表明,频率响应法成功辨析了不同产物分子的传质规律,证实C2和C3烃分子在HZSM-5微孔孔道内具有相近的扩散速率,但由于受晶体表面阻碍效应影响不同,乙烷分子可自由进出HZSM-5分子筛孔道,而丙烷分子则受到较显著的微孔孔道扩散限制。另外,苯分子的扩散速率显著小于C2和C3分子,且苯分子受晶体表面阻抗效应的影响较小。本研究结果可用于解释HZSM-5分子筛在MTO反应中产物选择性的特点及表面结焦原因,进而从传质角度为高活性、选择性以及稳定性的高效甲醇转化制烃催化剂的定向开发提供理论指导。     

La／HZSM—5催化剂上丙烷的芳构化反应研究

采用浸渍法和离子交换法制备了La/HZSM-5分子筛催化剂,用于丙烷芳构化反应,利用XRD,SPS,FT－IR,NH3－TPD技术考察了La对HZSM－5分子筛结构和表面酸性的影响,引入La后能显著提高HZSM－5的丙烷芳构化活性,其中由离子交换法得到的催化剂效果最佳,在反应温度550度,空速600h^-1条件下,丙烷转化率和芳烃选择性分别达到94．58％,68．99％,在La/HZSM-5中分子筛结晶度下降,B酸中心减少,L酸中心增多,离子交换法制备的催化剂比浸渍法催化剂的这种变化更显著,同时更有利于La3 进入分子筛孔道内,并与分子筛产生强相互作用,新增加的L酸中心可能是芳构化反应的活性中心。     

Isopropanol diffusion and dehydration in zeolite Hzsm-5. Spectrokinetic study

The isopropanol diffusion and dehydration in zeolite HZSM-5 were studied by FTIR spectroscopy. The alcohol dehydration was shown to start at the temperature above 60°C. It was found that at temperatures above 350°C, the isopropanol dehydration was limited by diffusion in the mesopores of zeolite. The method developed allows studying the kinetics of interactions of the reagent molecules with the OH-groups at the external surface of the zeolite and inside its channels.     

Ga改性ZSM-5分子筛催化丙烷芳构化性能研究

用离子交换法制备Ga改性ZSM-5双功能催化剂,并结合XRD、SEM、BET、NH₃-TPD、Py-IR及ICP、XPS等多种技术进行表征,考察分子筛硅铝比(Si/Al)和催化剂氧化还原预处理条件对分子筛的酸性质、Ga物种的存在状态及其丙烷芳构化催化性能的影响。研究表明,硅铝比不仅可以改变分子筛的酸性,也会影响分子筛中非骨架Ga物种与分子筛表面的相互作用程度,进而影响含Ga分子筛的丙烷芳构化性能。在质量空速1.0 h^-1、反应温度550℃ 下,Si/Al比为30的Ga-HZSM-5分子筛丙烷转化率和芳烃收率最高。Ga物种的引入可以提高丙烷的转化率和芳烃的选择性,并抑制烷烃、烯烃的裂解。H₂还原处理,将分子筛表面Ga₂O₃还原为低价的Ga⁺和GaH⁺₂物种,促进了Ga物种向分子筛微孔迁移;还原-氧化处理后,Ga⁺和GaH⁺₂物种氧化成GaO⁺,占据分子筛孔道离子交换位,显著提高了催化剂的芳构化活性。     

H-ZSM-5分子筛不同孔道处的酸位在甲醇制烯烃反应中的催化作用

甲醇制烯烃(MTO)作为一条由煤、天然气和生物质等含碳资源制备重要有机化学品的非石油路线,近年来备受关注.作为MTO催化剂,分子筛的骨架拓扑结构和酸性质对于其催化活性、反应路径和产物分布等具有重要的影响.H-ZSM-5分子筛是一种典型的MTO反应催化剂,酸位可以分布在MFI拓扑结构的直孔道、正弦孔道和交叉位点处.虽然目前已普遍认可MTO反应遵循芳烃/烯烃双循环烃池机理,分子筛的催化性能与其骨架中酸中心的位置相关,但对于H-ZSM-5分子筛不同孔道位置处的酸中心在甲醇制烯烃反应中的催化作用仍缺乏足够认识.本文采用密度泛函理论计算和分子动力学模拟方法,对H-ZSM-5分子筛不同孔道处(包括正弦孔道、直孔道和交叉腔)酸位中心上的MTO反应网络(包括芳烃循环、烯烃循环和芳构化)及甲醇原料和烯烃/芳烃产物的扩散行为进行了比较研究.结果表明,与正弦孔道和直孔道相比,芳烃循环和芳构化反应在交叉腔的酸中心上因具有较低的能垒而更易进行.相比之下,在正弦孔道和直孔道中,多甲基苯的生成受到显著限制,而烯烃循环却可以在三种酸中心(正弦孔道、直孔道和交叉腔)上以相近的能垒和相似的几率进行.芳烃循环生成乙烯和丙烯的几率相近,而烯烃循坏产物以丙烯和较高的烯烃产物为主.落位于H-ZSM-5交叉腔的酸中心能促进芳烃中间体如多甲基苯的生成,推动芳烃循环,提高乙烯选择性,而正弦孔道和直孔道中的酸中心则能增强烯烃循环,生成较多的丙烯和较高的烯烃产物.因此,H-ZSM-5分子筛对MTO的催化性能(包括活性和产物选择性等),可以通过有目的地调节酸中心在分子筛骨架中的位置分布(即铝落位)而得到有效调变和提升.本文阐明了H-ZSM-5分子筛酸中心在MTO反应中的催化作用与其骨架中的落位之间的有机联系,为高效甲醇转化分子筛催化剂的设计和性能提升提供了参考思路.     

Boosting Size‐Selective Hydrogen Combustion in the Presence of Propene Using Controllable Metal Clusters Encapsulated in Zeolite

A strategy is presented for making metal clusters encapsulated inside microporous solids selectively accessible to reactant molecules by manipulating molecular sieve size and affinity for adsorbed molecules. This expands the catalytic capabilities of these materials to reactions demanding high selectivity and stability. Selective hydrogen combustion was achieved over Pt clusters encapsulated in LTA zeolite (KA, NaA, CaA) in a propene‐rich mixture obtained from propane dehydrogenation, showing pore‐size dependent selectivity and coking rate. Propene tended to adsorb at channels or external surfaces of zeolite, interfering the diffusion of hydrogen and oxygen. Tailoring the surface of LTA zeolite with additional alkali or alkaline earth oxides contributed to narrowing zeolite pore size and their affinity for propene. The thus‐modified Pt@KA catalyst displayed excellent hydrogen combustion selectivity (98.5 %) with high activity and superior anti‐coking and anti‐sintering properties.     

Mo和Ni改性的HZSM-5催化剂对煤热解焦油的改质

考察了Mo和Ni改性的HZSM-5催化剂对煤热解焦油的改质性能,分析了催化改质前后焦油中轻质芳烃分布的变化规律。结果表明,经HZSM-5催化剂褐煤(XM)热解轻质芳烃总量的增加率为220%,这与煤热解产物在HZSM-5催化剂中发生烯烃和烷烃的芳构化以及酚羟基脱除等作用有关。负载活性金属Mo和Ni后,可以有效促进轻质芳烃的生成;Ni对焦油中带脂肪侧链化合物具有更强的裂解作用,而Mo则有利于带侧链化合物如甲苯和二甲苯的形成。焦煤(FX)热解过程中轻质芳烃的释放量分别是XM煤和年轻烟煤(PS)的2.2和2.4倍。经催化改质后,XM煤产物中轻质芳烃产率明显大于PS煤,并接近FX煤;这主要是因为XM煤结构中含有较多的含氧官能团和脂肪结构,在HZSM-5作用下可催化形成轻质芳烃。     

高温水蒸气处理对ZnHZSM-5活性中心的影响

应用X-射线衍射、能谱表面分析和吡啶吸附红外光谱研究了高温水蒸气处理对HZSM-5和ZnHZSM-5催化剂的影响，并以丙烷芳构化作为探针反应考查了催化活性中心的变化．高温水蒸气处理对分子筛的结晶度影响不大，但水蒸气处理使得分子筛骨架铝脱出，脱出的铝在表面富集，分子筛锌交换位的骨架铝脱出较难，脱铝导致分子筛的酸性减弱．高温水蒸气处理后的HZSM-5和ZnHZSM-5催化剂的丙烷反应活性都降低，在ZnHZSM－5上丙烯的选择性增加，反映了具有脱氢活性的锌的强L酸中心数目相对B酸中心减少较少，进一步说明了处于离子交换位的锌离子对骨架铝有保护作用     

The effect of an intermetallic hydrogen acceptor on catalytic aromatization of propane

The effect of the intermetallic compound Zr₂Fe as a hydrogen acceptor in the aromatization of propane in the presence of a zeolite catalyst has been investigated. High-silica, pentasil-type zeolite ZVM was modified by Zn, Ga, or Pt. The intermetallic compound was found to remove hydrogen formed during aromatization, resulting in a 2-to 5-fold increase in the yields of aromatics and in a marked increase in selectivity for aromatization. The magnitude of this effect is shown to be dependent on the catalyst composition.Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 1, pp. 61–63, January, 1993.     

轻烃在改性ZSM－5催化剂上转化成芳烃与低碳烯烃的选择性控制

研究了Ｃ３－Ｃ９烷烃在不同的改性ＺＳＭ－５沸石上的反应规律．过渡金属离子改性的ＺＳＭ－５沸石显示了较高的芳烃选择性，芳烃的选择性还取决于改性金属离子的脱氧能力并可通过预硫化得到改进．钾、钡改性的沸石显示了较高的烯烃选择性，增加钾含量，烯烃选择性显著提高，但也明显抑制了催化剂的活性；提高Ｂａ含量，同样可提高烯烃选择性，但对活性影响不大．环己烯的模型反应结果表明，Ｋ，Ｂａ的作用在于抑制了双分子氢转移反应和提高了脱氢能力．红外表征结果表明，沸石表面的羟基，因不同金属改性而发生不同的变化．此外，气相氧对提高烯烃和芳烃的收率有明显作用     

STUDY OF HYDROGEN TRANSFER REACTIONS IN PROPANE AROMATIZATION OVER Ga MODIFIED HZSM-5 CATALYSTS

研究了丙烷在不同ＳｉＯ２／Ａｌ２Ｏ３比值的ＨＺＳＭ５和Ｇａ改性ＨＺＳＭ５催化剂上的芳构化转化，为探讨氢转移反应的能力，也考察了在丙烷中添加少量氢对芳构化转化的影响。结果表明，随ＨＺＳＭ５分子筛ＳｉＯ２／Ａｌ２Ｏ３比值的减小，氢转移反应程度增大；在分子筛中引入Ｇａ，氢转移反应能力增大。最后提出了有Ｇａ参与的反应机理。     

Propane Aromatization over Mo／HZSM—5 Catalysts

Impregnation,mechanical mixing and hydrothermal treatment methods were used to introduce molybdenum species into the HZSM-5 zeolite ,the structure and surface acidity of the catalysts were studied by means of XRD,FT-IR ,NH3-TPD,TPR and XPS,The effects of Mo content and reaction time on stream on the aromatization of propane were investigated,It was found that the performance of the Mo/HZSM-5 catalst prepared by the hydrothermal treatment method was much better than that of the other two catalysts,For example ,under the reaction conditions of 823 K and 600h^-1, propance conversion and aromatics selectivity over the catalyst prepared by hydrothermal pretreatment could reach 89.17% and 78.56%,respectively,XRD and XPS results showed that the Mo species in the catalysts prepared by hydrothermal treatment were highly dispersed on the surface of the HZSM-5,and lartger amounts of them could penetrate into the HZSM-5 channel ,as compared with the other two kinds of catalysts,These factors may be responsibled for their high activities for propane aromatization,IR and NH3-TPD studies indicated that the number of Broensted acid centers decreased and the Lewis acid centers increased after Mo was introduced into the HZSM-5 zeolite.     

Effect of acid strength distribution on conversion of FCC gasoline over a ZSM-5 zeolite catalyst

Summary Acid strength distribution and the distribution of aromatics formed in the FCC gasoline conversion reaction on a ZSM-5 zeolite with different Na contents have been studied. With increasing Na content in the ZSM-5 zeolite, the acid sites determined by NH₃-TPD technique, especially the strong acid sites, clearly decrease. When used as catalyst for the aromatization reaction, the transformation of olefins in the FCC gasoline into aromatics is governed directly by the strong acid sites on the ZSM-5 catalyst. Only under the conditions that a ZSM-5 catalyst possesses suitable strong acid sites is reaction temperature favorable for the aromatics formed.     

Synthesis of liquid hydrocarbons enriched with triptane via dimethyl ether conversion over combined catalyst

A combined catalytic system composed of catalysts with different functions was prepared. The catalyst for the synthesis of lower olefins based on is H-ZSM-5 zeolite modified with Mg, was mixed with the catalyst for alkylation of isobutane by olefins based on H-Y zeolite modified with La and Pd. In the presence of the combined system, liquid branched hydrocarbons were synthesized from dimethyl ether in a hydrogen medium at 340 °C and a pressure of 10 MPa. The effect of the composition of the combined catalyst on its selectivity to liquid hydrocarbons and, specifically, triptane was shown.

     

Propane Aromatization over Mo/HZSM-5 Catalysts

Impregnation, mechanical mixing and hydrothermal treatment methods were used to introduce molybdenum species into the HZSM-5 zeolite. The structure and surface acidity of the catalysts were studied by means of XRD, FT-IR, NH3-TPD, TPR and XPS. The effects of Mo content and reaction time on stream on the aromatization of propane were investigated. It was found that the performance of the Mo/HZSM-5 catalyst prepared by the hydrothermal treatment method was much better than that of the other two catalysts. For example, under the reaction conditions of 823 K and 600 h-1, propane conversion and aromatics selectivity over the catalyst prepared by hydrothermal pretreatment could reach 89.17% and 78.56%, respectively. XRD and XPS results showed that the Mo species in the catalysts prepared by hydrothermal treatment were highly dispersed on the surface of the HZSM-5, and larger amounts of them could penetrate into the HZSM-5 channel, as compared with the other two kinds of catalysts. These factors may be responsi     

Synthesis of ZSM-5 Zeolite with Small Crystallite and its Application in Aromatiration of Propane

Recently.greatinterestswereputonthenano-sizedmaterials.ItwasfoundthatzeoliteZSM-5withsmallornano-sizedcrystallitecouldachieveexcellentcatalyticperformanceincertainreactions'-;.However,mostpublicationsconcerningthesynthesisofZSM-5withsmallcrystallitealwaysusethecostlyTPAOH/Brasorganictemplates.WereportedherefoemethodusingmuchcheaperethylamineastemplateandtheproductswereappliedtoaromatizationofpropaneinwhichthestabilityofcatalystwasimprovedwithoutusingcostlyPt'orPd'asstabilizer.Synthesisof…     

ZSM-5催化丙烯芳构化反应构效关系及反应特性

甲醇两步制芳烃反应中低碳烯烃芳构化反应稳定性优异,为分析其内在机制,制备了不同硅铝比(n_SiO2/n_Al2O3)及Zn负载量的ZSM-5催化剂,以丙烯芳构化为模型反应,分析ZSM-5表面酸性对低碳烯烃芳构化反应性能的影响规律,并探究反应微观特性。发现当硅铝比由150降至75时,增加的酸密度促进了烯烃氢转移芳构化过程,使芳烃选择性由31.0%增至34.4%,但丙烯直接参与的氢转移过程也被强化,使丙烷产物选择性由28.2%增至36.0%。引入Zn助剂可将部分Br?nsted酸转变为ZnLewis酸,强化烯烃脱氢芳构化过程,使芳烃选择性进一步显著增加到62.4%。丙烯芳构化过程中芳烃烷基化深度比甲醇芳构化过程低,提升总芳烃选择性的同时,也明显抑制了难溶性积碳的形成,使反应稳定性明显提升。由此得出,甲醇两步制芳烃过程中甲醇制低碳烯烃过程对甲醇的预先消耗,抑制了低碳烯烃芳构化反应芳烃产物的深度烷基化,是该反应表现出优异稳定性的重要原因。