乙苯脱氢氧化铁系催化剂的活性相及钾的助催作用

与机械混合法相比,用KOH水溶液浸渍法制成的K_2O-Fe_2O_3催化剂性能较佳。负载型多元催化剂的性能与C-64I相近。SEM、XPS和EDAX证实,经使用后,上述负载型多元催化剂表面形态明显改变,表面铁/钾原子比上升。连续升温XRD证实,在乙苯脱氢通常所采用的温度区间,载于表面的KOH会迅速和氧化铁相互作用生成K_2Fe_2O_4。本文认为K_3Fe_2O_4可能是活性相并据此对实验结果作出较为合理的解释。     

Theoretical and Experimental Study on Reaction Coupling： Dehydrogenation of Ethylbenzene in the Presence of Carbon Dioxide

Dehydrogenation of ethylbenzene (EB) to styrene (ST) in the presence of CO2, in which EB dehydrogenation is coupled with the reverse water-gas shift (RWGS), was investigated extensively through both theoretical analysis and experimental characterization. The reaction coupling proved to be superior to the single dehydrogenation in several respects. Thermodynamic analysis suggests that equilibrium conversion of EB can be improved greatly by reaction coupling due to the simultaneous elimination of the hydrogen produced from dehydrogenation. Catalytic tests proved that iron and vanadium supported on activated carbon or Al2O3 with certain promoters are potential catalysts for this coupling process. The catalysts of iron and vanadium are different in the reaction mechanism, although ST yield is always associated with CO2 conversion over various catalysts. The two-step pathway plays an important role in the coupling process over Fe/Al2O3, while the one-step pathway dominates the reaction over V/Al2O3. Coke deposition and deep reduction of active components are the major causes of catalyst deactivation. CO2 can alleviate the catalyst deactivation effectively through preserving the active species at high valence in the coupling process, though it can not suppress the coke deposition.     

乙苯氧化脱氢反应Fex/TiO2的催化性能研究

新型氧化钛负载铁催化剂Fex/TiO2在低温乙苯空气氧化脱氢制苯乙烯反应中具有良好的催化活性。350 ℃,使用Fe7/TiO2催化剂,当Fe的质量分数为7%时,可获得14.6%乙苯单程转化率和99.0%的苯乙烯选择性。通过X衍射、表面吸附、热分析及扫描电镜仪器分析表征,考察氧化钛负载铁催化剂在乙苯低温氧化脱氢反应中的催化作用。350 ℃乙苯可被活化,催化剂活性的高低取决于活性物种Fe(III)的分布状态和质量分数。     

Tantalum-containing catalysts for oxydehydrogenation of hydrocarbons and alcohols

The first methods were developed for introducing tantalum(V) into Mg-Al hydrotalcites, which are precursors of oxide catalysts for oxydehydrogenation of hydrocarbons and alcohols. Samples of oxide tantalum(V)-containing catalysts were synthesized. Their catalytic properties were studied in the oxydehydrogenation of ethane to ethylene and ethylbenzene to styrene, oxydehydrocyclization of octane to ethylbenzene and styrene, and oxydehydrogenation of sec-butanol to ketone (octan-2-one). The transformation of ethane to ethylene over the tantalum-containing catalyst occurs with a high selectivity (92–97%) at relatively low temperatures (500°C), and the catalyst is quite efficient in conversion of ethylbenzene to styrene, dehydrocyclization of n-octane to ethylbenzene and styrene, and oxydehydrogenation of sec-butanol to octan-2-one. Comparison with a niobium-containing catalyst showed that it ensures higher yields and selectivities in similar reactions than its tantalum-containing analogue does.     

硅铁ZSM—5催化剂上乙苯分子的吸附作用和表面反应

运用X光电子能谱、顺磁共振及穆斯堡尔谱研究了FeZSM-5沸石催化剂上乙苯的吸附及与催化剂的相互作用。沸石中骨架铁能与吸附的乙苯分子发生较强的相互作用。使Fe_2,电子结合能产生较大的低能位移;乙苯分子可以络合配位在沸石骨架中配位不饱和的Fe(Ⅲ)上,引起对应铁的顺磁信号和穆斯堡尔参数的变化,利用程序升温脱附和表面反应技术,通过考察吸附乙苯在FeZSM-5催化剂上的脱附和反应,进一步揭示了FeZSM-5乙苯脱氢催化活性中心的性质.     

MgO催化剂上以H2O2为氧源的苯乙烯环氧化反应

采用直接焙烧Mg(NO3)2·6H2O制备了固体MgO催化剂,并以H2O2为氧源,乙腈为溶剂,考察了其对苯乙烯环氧化反应的催化性能.运用X射线衍射、N2吸附-脱附、热重和CO2程序升温脱附对催化剂进行了表征.结果表明,MgO表面碱的强度在苯乙烯环氧化反应中起主导作用,而其表面的碱量、比表面积及孔体积等的影响较小.经75...     

膜反应器在乙苯脱氢反应过程中的应用(英文)

以γ－Ａｌ２Ｏ３微孔陶瓷膜构成膜反应器（ＣＭＲ），使用ＧＳ－０５工业催化剂，在工业过程的操作条件下，研究了乙苯脱氢生产苯乙烯膜的反应规律。与工业上的固定康（ＰＦＲ）过程比较，有膜反应过程产率可提高５％－１０％。在本研究的条件下，股反应的优化实际上就是催化剂反应活性和膜渗透性的匹配。     

镧-镍复合氧化物纳米微粒的固相合成及其催化性能

The La-Ni complex oxide catalyst was prepared by solid state reactions under microwave. The structure and reducibility of the catalyst were characterized by using TG-DTA, XRD, TEM and TPR methods. At the same time the catalytic activity of oxidative dehydrogenation of ethylbenzene to styrene with carbon dioxide over the complex oxide nanoparticle was investigated.The Results show that the product is K2NiF4 nanoparticles,and the size is 13nm.The complex oxide sample had high activity for the oxidative dehydrogenation of ethylbenzene to styrene.     

A STUDY ON MEMBRANE PROCESS WITH |?-ALUMINA MEMBRANE REACTOR FOR ETHYLBENZENE DEHYDROGENATION TO STYRENE

The membrane reaction of ethylbenzene(EB) dehydrogenation to styrene(ST) has been studied by using K2O/Fe2O3 industrial catalyst and alumina ceramic membrane developed by our institute. In comparison with the packed bed reactor (that is, plug flow reactor, abbr. PFR) in industrial practice, the yield of styrene was increased by 5%~10% in the membrane reactor. Furthermore, mathematical modeling of membrane reaction has been studied to display the principle of optimal match between the catalytic activity and the membrane permeability.     

钒基催化剂在双氧水存在下对甲、乙苯液相选择氧化的研究

研究了若干钒基催化剂在双氧水存在下对甲、乙苯的液相选择性氧化催化性能.结果表明:在乙腈为溶剂的反应体系中,所研究的钒基催化剂包括VPO,VOPO₄,V₂O₅,VO(acac)₂和NH₄VO₃等均表现出以苯甲醛为甲苯选择性氧化主产物和以苯乙酮为乙苯选择氧化主产物的反应结果;从反应活性和主产物选择性来看,按以下顺序递减:VPO＞V₂O₅＞VOPO₄＞VO(acac)₂＞NH₄VO₃.对于具有(VO)₂P₂O₇晶相的VPO催化剂,在双氧水存在下对甲苯选择性氧化主产物苯甲醛的最高选择性为58.8%,乙苯选择性氧化主产物苯乙酮的最高选择性为67.8%;其催化性能与P/V比、焙烧条件、双氧水的使用量、反应溶剂等有关.从已有的实验结果推测,钒基催化剂在双氧水存在下的甲、乙苯选择氧化反应与V⁵⁺/V⁴⁺的"氧化-还原"作用密切相关.     

Niobium-containing catalysts for oxydehydrogenation of hydrocarbons and alcohols

The first methods are developed for introducing niobium(V) into Mg-Al hydrotalcites used as precursors of oxide catalysts for oxydehydrogenation (OD) of alkanes and alcohols. Samples of niobium(V)-containing oxide catalysts are synthesized. Their catalytic properties are studied in oxydehydrogenation of ethane and ethylbenzene to styrene, oxidation dehydrocyclization of octane into ethylbenzene and styrene, and oxydehydrogenation of sec-butanol to ketone (octane-(2)-one). It is ascertained that ethane transformation into ethylene is highly a selective highly process (92–97%) at low temperatures (450–500°C) in the presence of a niobium-containing catalyst; the catalyst is appreciably efficient in ethylbenzene transformation to styrene and dehydrocyclization of n-octane to ethylbenzene and styrene, and in oxydehydrogenation of secbutanol to octane-(2)-one. All the catalysts studied operate stably in OD reactions; no decrease in their activity or selectivity was detected after 50 h operation.     

Structural characterization and oxidative dehydrogenation activity of V2O5/Ce(x)Zr(1-x)O2/SiO2 catalysts

The thermal stability of a nanosized Ce(x)Zr(1-x)O2 solid solution on a silica surface and the dispersion behavior of V2O5 over Ce(x)Zr(1-x)O2/SiO2 have been investigated using XRD, Raman spectroscopy, XPS, HREM, and BET surface area techniques. Oxidative dehydrogenation of ethylbenzene to styrene was performed as a test reaction to assess the usefulness of the VOx/Ce(x)Zr(1-x)O2/SiO2 catalyst. Ce(x)Zr(1-x)O2/SiO2 (1:1:2 mol ratio based on oxides) was synthesized through a soft-chemical route from ultrahigh dilute solutions by adopting a deposition coprecipitation technique. A theoretical monolayer equivalent to 10 wt % V2O5 was impregnated over the calcined Ce(x)Zr(1-x)O2/SiO2 sample (773 K) by an aqueous wet impregnation technique. The prepared V2O5/Ce(x)Zr(1-x)O2/SiO2 sample was subjected to thermal treatments from 773 to 1073 K. The XRD measurements indicate the presence of cubic Ce0.75Zr0.25O2 in the case of Ce(x)Zr(1-x)O2/SiO2, while cubic Ce0.5Zr0.5O2 and tetragonal Ce0.16Zr0.84O2 in the case of V2O5/Ce(x)Zr(1-x)O2/SiO2 when calcined at various temperatures. Dispersed vanadium oxide induces more incorporation of zirconium into the ceria lattice, thereby decreasing its lattice size and also accelerating the crystallization of Ce-Zr-O solid solutions at higher calcination temperatures. Further, it interacts selectively with the ceria portion of the composite oxide to form CeVO4. The RS measurements provide good evidence about the dispersed form of vanadium oxide and the CeVO4 compound. The HREM studies show the presence of small Ce-Zr-oxide particles of approximately 5 nm size over the surface of amorphous silica and corroborate with the results obtained from other techniques. The catalytic activity studies reveal the ability of vanadium oxide supported on Ce(x)Zr(1-x)O2/SiO2 to efficiently catalyze the ODH of ethylbenzene at normal atmospheric pressure. The remarkable ability of Ce(x)Zr(1-x)O2 to prevent the deactivation of supported vanadium oxide leading to stable activity in the time-on-stream experiments and high selectivity to styrene are other important observations.     

Low-temperature destruction of carbon tetrachloride over lanthanide oxide-based catalysts: from destructive adsorption to a catalytic reaction cycle

The catalytic destruction of carbon tetrachloride in the presence of steam, CCl(4) + 2 H(2)O-->4 HCl + CO(2), was investigated at 200-350 degrees C over a series of lanthanide (La, Ce, Pr and Nd) and alkaline-earth metal (Mg, Ca, Sr and Ba) oxide-based catalysts with kinetic experiments, Raman spectroscopy, X-ray photoelectron spectroscopy, IR spectroscopy, X-ray diffraction, and DFT calculations. This new catalytic reaction was achieved by combining destructive adsorption of CCl(4) on a basic oxide surface and concurrent dechlorination of the resulting partially chlorinated solid by steam. The combination of the two noncatalytic reactions into a catalytic cycle provided a rare opportunity in heterogeneous catalysis for studying the nature and extent of surface participation in the overall reaction chemistry. The reaction is proposed to proceed over a terminal lattice oxygen site with stepwise donation of chlorine atoms from the hydrocarbon to the surface and formation of the gas-phase intermediate COCl(2), which is readily readsorbed at the catalyst surface to form CO(2). In a second step, the active catalyst surface is regenerated by steam with formation of gas-phase HCl. Depending on the reaction conditions, the catalytic material was found to transform dynamically from the metal oxide state to the metal oxide chloride or metal chloride state due to the bulk diffusion of oxygen and chlorine atoms. A catalyst obtained from a 10 wt % La(2)O(3)/Al(2)O(3) precursor exhibited the highest destruction rate: 0.289 g CCl(4) h(-1) g(-1) catalyst at 350 degrees C, which is higher than that of any other reported catalyst system.     

Microcalorimetric Adsorption of Alumina Oxide Catalysts for Combination of Ethylbenzene dehydrogenation and carbon Dioxide Shift-reaction

Styrene (STY) is now produced industrially in fairly large quantities by the dehydrogenation of ethylbenzene (EB) using promoted iron oxide catalyst with superheated steam.In this case, small amount of carbon dioxide formed as a by-product was known to inhibit the catalytic activity of commercial catalyst. Recently, there have been some reports which carbon dioxide showed positive effects to promote catalytic activities on the reaction over several catalysts.In this study, we attempted to combine the dehydrogenation of EB to STY with the carbon dioxide shift-reaction. The combine reaction (EB + CO2 → STY + H2O + CO) can be considered as one of the ways of using CO2 resources and can yield simultaneously STY and Carbon oxide.Alumina oxide catalysts such as Al2O3, Na2O/Al2O3 and K2O/Al2O3 were prepared by the usual impregnation method with an aqueous solution of NaNO3 and KNO3, and then calcined at 650℃ for 5 h in a stream of air. The reaction condition is 600℃, flow of CO2 38ml/mon and space velocity (EB) 1.28h-1.     

钾助催化剂与Fe3O4相互作用行为的XRD表征

XRD研究表明 ,作为乙苯脱氢催化剂中的氧化铁活性组分 ,具有反式尖晶石结构的Fe3O4 比刚玉型的α Fe2O3 更易与钾助催化剂发生相互作用 :α Fe2O3-K2O需经850℃煅烧才能生成多铁酸钾 ,但在Fe3O4 -K2O体系中只需700℃即可.而且 ,钾还可抑制Fe3O4 被氧化为α Fe2O3 的进程 ,在空气中 ,Fe3O4 只需300℃煅烧即可明显转化为α Fe2O3 ,但同样的转化在Fe3O4 K2O体系中要经700℃煅烧才会明显地发生.实验结果表明 ,某种形态的多铁酸钾可能是催化剂中的储钾相.     

杂多酸结构对乙苯氧化脱氢的影响

首次考察了Dawson结构的钨磷酸对乙苯氧化脱氢制苯乙烯的催化行为,并与Keggin结构的钨磷酸进行了对比。结果表明,较短的增活期可能与表面积碳物具有更多的未成对电子有关。     

碳膜包覆的氧化铁纳米颗粒:一种高效的芳硝基化合物加氢催化剂

铁是地球上最丰富的元素之一,它在生命反应中起到至关重要的作用.目前,铁基催化剂广泛应用于合成氨、费托合成、NOx的选择性催化还原等.最近,铁因其含量丰富、价格低廉、无毒等优势而在多相催化方面引起了重点关注.最新研究发现,铁基催化剂在甲烷直接偶联制乙烯、氧还原以及芳硝基化合物的选择性加氢等领域具有突出表现,其中芳硝基化合物选择性加氢是一类具有重要应用前景的反应,这是因为苯胺(AN)是一种重要的精细化学品和有机中间体,广泛用于医药、染料、农药等行业,苯胺的年产量超过了400万吨,目前使用的催化剂主要有Raney Ni、负载镍、Ru/SnO2及少量铂碳、钯碳催化剂.但是,在Ni基催化剂上,硝基苯加氢主要经过间接缩合途径,同时会伴有氧化偶氮苯(AOB)、偶氮苯(AB)和氢化偶氮苯(HAB)等副产物生成,这些高沸点的副产物会带来一系列问题,如产物分离困难、产品纯度较低以及催化剂失活等.在这种情况下,为了加速苯胺生成,工业上一般采用过量的Raney Ni催化剂.贵金属(如Pt,Pd和Ru等)对催化芳硝基化合物加氢具有极高的活性,且苯胺的生成主要经过直接加氢途径.然而,由于成本过高,贵金属催化剂的大规模应用还存在一定的困难.本文采用简易的方法制备了一种铁基催化剂,在这个催化剂中氧化铁纳米颗粒被碳膜包覆并嵌入至平板碳中(Fe2O3@G-C).该催化剂由活性炭、苯胺及醋酸亚铁热解所得.通过扫描电镜(SEM)、拉曼光谱(Raman)及X射线衍射(XRD)分析,我们证实在原始碳颗粒上形成了新的碳膜.同时高倍透射电镜图也清楚地揭示了氧化铁纳米颗粒被碳膜包覆的结构.实验发现,Fe2O3@G-C-900催化剂(900oC热解所得)在芳硝基化合物选择性加氢反应中具有很高的活性.在2 MPa H2,70oC条件下反应2 h,硝基苯(NB)转化率达到95.4%,苯胺选择性达到99.1%,远远高于其他载体(活性炭、SiO2、Al2O3和MgO)负载的铁基催化剂.表征结果发现,Fe2O3@G-C-900催化剂的高活性可能与其具有较大的比表面积(573.7 m2/g)、孔体积(0.22 cm3/g,孔径小于2 nm)、高度分散的氧化铁纳米颗粒以及氧化铁纳米颗粒和其表面碳膜的协同作用密切相关.此外,催化剂中引入的氮原子不仅可以在包覆的碳膜上形成缺陷,也能进一步增强包覆在氧化铁纳米颗粒表面的碳膜的催化活性.通过对Fe2O3@G-C-900催化剂在硝基苯加氢反应中的循环使用活性的考察,发现该催化剂在循环使用5次后,仍具有良好的活性.更重要的是,在Fe2O3@G-C-900催化剂上硝基苯的加氢主要是直接途径,反应中没有高沸点AOB,AB和HAB等副产物生成.鉴于Fe2O3@G-C-900催化剂对NB加氢具有优异的活性,我们还进行了一系列含有不同取代基团的芳硝基化合物的加氢实验,发现对位取代的底物相对于间位及邻位的底物更容易发生加氢还原反应,这应归因于该催化剂的孔径较小(0.52 nm).这些研究方法可以扩展至其他金属催化剂的制备,以促进高效益和可持续的工业生产的发展.     

FeZSM—5催化剂上乙苯脱氢反应机理研究—瞬态应答法

采用快速动态法制备了具有MFI结构的硅铁沸石分子筛,研究了该分子筛上乙苯脱氢反应的瞬变行为.结合表面吸附态的红外、顺磁结果发现,苯乙烯通过化学活性吸附的乙苯脱氢形成.通过这个模型可满意地解释瞬态曲线和稳态下的动力学行为.     

Effects of pretreatment and reduction on the Co/Al2O3 catalyst for CO hydrogenation

The purpose of this study was to investigate the effect of preadsorbed CO at different temperatures, calcination temperatures, the combined influence of reduction temperature and time, and pretreatment using hydrogen or syngas as reduction agents on the F-T synthesis （FTS） activity and selectivity of Co/Al2O3 catalyst. The reactivity of the carbon species at higher preadsorption temperature with H2 in TPSR decreased, whereas the carbon-containing species showed higher reactivity over Co/Al2O3 catalyst with low calcination temperature. This agreed well with the order of catalytic activity for F-T synthesis on this catalyst. The catalytic activity of the catalyst varied with reduction temperature and time remarkably. CODEX optimization gave an optimum reduction temperature of 756 K and reduction time of 6.2 h and estimated C5＋ yield perfectly. The pretreatment of Co/Al2O3 catalyst with different reduction agents （hydrogen or syngas） showed important influences on the catalytic performance. A high CO conversion and C5＋ yield were obtained on the catalyst reduced by hydrogen, whereas methane selectivity on the catalyst reduced by syngas was much higher than that on the catalyst reduced by hydrogen.     

Al2O3负载Cu,Fe或Ni掺杂氧化钼催化乙苯氧化脱氢（英文）

Molybdenum-based catalysts supported on Al2O3 doped with Ni, Cu, or Fe oxide were synthesized and used in ethylbenzene dehydrogenation to produce styrene. The molybdenum oxide was sup-ported using an unconventional route that combined the polymeric precursor method (Pechini) and wet impregnation on commercial alumina. The samples were characterized by X-ray diffraction (XRD), N2 adsorption-desorption isotherms, temperature-programmed reduction of H2 (H2-TPR), and thermogravimetric (TG) analysis. XRD results showed that the added metals were well dis-persed on the alumina support. The addition of the metal oxide (Ni, Cu, or Fe) of 2 wt% by wet im-pregnation did not affect the texture of the support. TPR results indicated a synergistic effect be-tween the dopant and molybdenum oxide. The catalytic tests showed ethylbenzene conversion of 28%–53% and styrene selectivity of 94%–97%, indicating that the addition of the dopant improved the catalytic performance, which was related to the redox mechanism. Molybdenum oxides play a fundamental role in the oxidative dehydrogenation of ethylbenzene to styrene by its redox and acid–base properties. The sample containing Cu showed an atypical result with increasing conver-sion during the reaction, which was due to metal reduction. The Ni-containing solid exhibited the highest amount of carbon deposited, shown by TG analysis after the catalytic test, which explained its lower catalytic stability and selectivity.