乙苯脱氢制苯乙烯氧化铁系催化剂的研究——晶格氧的作用

本文探讨了乙苯催化脱氢制苯乙烯工业氧化铁系催化剂晶格氧与水蒸汽氧的交换以及晶格氧参与反应的微观机理.实验结果表明:催化剂晶格氧参与反应,与水蒸汽氧有交换,反应途径以直接脱氢为主,并发生氧转移脱氢.讨论了两种脱氢反应途径中,晶格氧参与反应的微观过程.强调指出,晶格电子传递和邻近活性位氧化还原周期协同进行是氧转移脱氢机理的必要条件.     

铈在乙苯脱氢氧化铁基催化剂中的助催化作用

研究了铈在Fe_2O_3-K_2O-CeO_2乙苯脱氢催化剂中的助催化作用。铈源为硝酸铈时助催效果明显,但CeO_2则不佳。助催化效果还与催化剂中的钾量有关。铈明显增进高钾催化剂的活性,但对催化剂的选择性无明显影响。     

Role of carbon dioxide in the ethylbenzene dehydrogenation coupled with reverse water–gas shift

The dehydrogenation of ethylbenzene (EB) to styrene (ST) in the presence of carbon dioxide instead of steam is believed to be an energy-saving and environmentally friendly process. However, the reaction mechanism for this coupling system still remains unclear. Therefore, the role of carbon dioxide was investigated by means of catalytic reactions and temperature-programmed desorption (TPD) of carbon dioxide over a series of Fe and V supported catalysts as well as thermodynamic analysis. The results showed that the ethylbenzene conversion is associated with the conversion of carbon dioxide, and that there exists a synergistic effect between the ethylbenzene dehydrogenation and the reverse water–gas shift. However, the difference in the behaviour of the catalysts between the single reverse water–gas shift and the coupled ethylbenzene dehydrogenation may suggest that the catalysts are different in the reaction mechanisms for the coupled ethylbenzene dehydrogenation. Carbon dioxide can be activated through either basic sites or redox sites on the catalyst. Based on these results, the role of carbon dioxide and reaction mechanisms are proposed.     

Oxidative dehydrogenation of ethylbenzene with carbon dioxide over zeolite-supported iron oxide catalysts

Oxidative dehydrogenation of ethylbenzene with carbon dioxide was carried out over ZSM-5 zeolite-supported iron oxide catalysts. In the presence of carbon dioxide, ethylbenzene was predominantly converted into styrene by oxidation. It was found that carbon dioxide in this reaction plays a role as a soft oxidant to greatly improve catalytic activity. An active phase for the dehydrogenation with carbon dioxide was suggested as rather reduced and isolated magnetite-like phase having oxygen deficiency in zeolite matrix.     

杂多酸催化剂上乙苯的氧化脱氢

本文研究了H₃PW₁₂O₄₀及其Na⁺、Al³⁺、Cd²⁺、La³⁺盐对乙苯氧化脱氢反应的催化活性。发现活性与酸强度和酸量之间没有直接的关系。杂多酸及其盐类在反应开始阶段均存在一段活性增长期,简称为"增活期"。增活期内催化剂表面的积炭量逐渐增加,积炭物的H/C比逐渐减小。用质谱法、薄板层析法检知了积炭物中有醌类物质存在,提出了积炭物中的醌类基团是氧化肥氢的活性中心的观点。     

TiO_2助剂对乙苯脱氢催化剂性能的影响

研究了TiO_2助剂对乙苯脱氢催化剂的结构和其催化性能的影响以及对催化剂中铁钾尖晶石活性相形成的作用,并对催化剂的物理化学性质进行了表征.表征结果表明,引入适量的TiO_2能显著促进催化剂中活性相K_2Fe_(22)O_(34)的形成,减小CeO_2的晶粒尺寸,提高其在催化剂中的分散性;另一方面,添加助剂TiO_2后可以降低CeO_2和活性相K_2Fe_(22)O_(34)的还原温度,为反应提供更多的氧缺位和酸碱中心,提高了催化剂乙苯脱氢反应的活性.     

氮化硼催化低碳烷烃氧化脱氢的活性起源探讨（英文）

页岩气的急速开采推动了以天然气替代石油的资源革命.除主组分甲烷外,天然气、页岩气中还包含大量乙烷、丙烷等低碳烷烃资源,将这些储量丰富的碳资源直接转化为烯烃等基础化学品有望革新以原油为基础的化学工业.现有烷烃催化脱氢制烯烃工艺中,直接脱氢过程吸热、热力学受限,且存在催化剂迅速失活的难题;而氧化脱氢是放热过程、无平衡限制,也无积碳等引发催化剂失活的问题,有利于提高反应效率、降低能耗,代表了更为高效和经济的新路线.但作为一个热力学爬坡过程,目前金属氧化物催化剂上烯烃产物很容易深度氧化到CO_2,选择性仍有待提高.非金属氮化硼能够有效活化低碳烷烃中的C-H键,促进烷烃氧化脱氢,并能够有效抑制深度氧化产物的生成,解决低碳烷烃临氧脱氢过程中产物易深度氧化的固有难题.本文综述了近期氮化硼在乙烷、丙烷、丁烷等低碳烷烃氧化脱氢制烯烃反应中的研究进展.以丙烷氧化脱氢为例,通过比较文献报道的几种氮化硼材料的氧化脱氢性能,发现羟基化氮化硼显示了最高的烯烃选择性和时空收率,以20.6%的丙烷转化率为基准,烯烃选择性超过90%,而时空收率可达6.8 golefin gcat~(-1) h~(-1).在此基础上,本文重点讨论了对于氮化硼材料催化活性起源的认识.主要实验事实和结论包括:氮化硼自身几乎没有氧化脱氢活性,而在烷烃氧化脱氢反应条件下存在活性诱导期;活性诱导期伴随着氮化硼边沿氧官能团化过程;氮化硼边沿B-O官能团没有脱氢活性,而B-OH官能团参与了氧化脱氢过程,辅助分子氧引发低碳烷烃脱氢反应;分子氧在羟基氮化硼边沿解离活化,反应过程中与边沿结构氧存在动态交换;氮化硼边沿羟基化定向合成过程可显著增强氧化脱氢反应活性.氮化硼作为一类新型烷烃氧化脱氢催化剂,目前正处于研究的初始阶段.因此,本文最后总结了一些关于氮化硼烷烃脱氢催化体系仍需深入研究的科学问题.     

Cs改性X型沸石上甲苯和甲醇的侧链烷基化反应

研究了碱金属离子交换和CsNO₃负载改性X型沸石上甲苯和甲醇的侧链烷基化反应。实验结果显示碱金属离子交换X型沸石由于碱性较弱其碱催化脱氢能力和侧链烷基化反应活性较低，而在Cs负载改性X型沸石上，由于CsNO₃负载物形成新的强碱位，能有效催化甲醇脱氢，表现出高的侧链反应活性。实验发现侧链烷基化反应产物收率(Y_EB+Sty)与异丙醇分解产物丙酮选择性(Sel._A)之间有极好的关联。     

CO2选择性氧化乙苯制苯乙烯

本文评述了近年来国内外利用温室气体CO₂选择性氧化乙苯制苯乙烯的研究进展.和乙苯直接脱氢法相比,新工艺不仅能降低反应温度,大幅度降低能耗,还能在一定程度上抑制催化剂的失活.氧化铝负载的Fe系催化剂和活性炭负载的La等过渡金属改性的V系催化剂具有较好的催化活性.CO₂对乙苯脱氢的显著促进作用要归因于金属氧化物催化剂的氧化还原机制以及乙苯脱氢和逆水煤气变换反应耦合的协同作用.尽管新工艺显示了良好的应用前景,但在将来的研究工作中还要强化催化剂失活机理的研究,开发新型高效催化剂并对新工艺的成本进行详细的评估。     

溶胶-凝胶法制备用于CO2气氛下乙苯脱氢反应的高活性Cr2O3-SiO2催化剂

 采用溶胶-凝胶法制备了Cr2O3-SiO2催化剂，考察了催化剂对CO2气氛下乙苯脱氢制苯乙烯反应的催化性能. 结果表明，溶胶-凝胶法制备的Cr2O3-SiO2催化剂上乙苯脱氢活性是常规的Cr2O3/SiO2负载型催化剂的2倍，Cr2O3-SiO2催化剂中Cr6+的含量较高是其具有高活性的主要原因.     

Co3V2O8催化剂的合成表征及其催化性能研究

采用共沉淀法制备了Co₃V₂O₈催化剂,并对催化剂进行了BET、XRD、H₂-TPR、XPS、和 TEM等技术表征,研究了其丙烷氧化脱氢 (ODH) 制丙烯反应的催化性能。H₂-TPR和XPS实验结果表明,Co₃V₂O₈催化剂中晶格氧可以较容易转换成可动氧物种(即未完全还原氧物种),使催化剂内各种价态的钒之间易于进行氧化还原反应并形成氧缺位,催化剂的表面含有较多未充分还原氧物种O^-和V⁴⁺ 物种。催化活性结果显示,在425℃和475℃,丙烯选择性分别为49.45%和33.74%,表现了较好的催化性能。     

乙烷在氧化镍上催化氧化脱氢的反应机理研究

应用O~2-TPD,脉冲实验,原位Weiss磁测量以及TAP(temporalanalysisofproducts)技术对NiO上的乙烷氧化脱氢制乙烯催化作用机理进行了研究。结果表明,NiO中的非化学计量氧表现出与气相氧交换的可逆性,其中在较低温度下脱附的α氧(很可能是O~2^-,O~2^2^-)仅存在于催化剂表面,与气相氧交换迅速,而较高温下脱附的β氧(很可能是O^-)不仅存在于催化剂表面,还存在于催化剂体相。β氧较α氧表现出更高的乙烯选择性。在反应条件下,Ni均应处于高氧化态(Ni^(^2^+^δ^)^+,0≤δ≤1),一旦催化剂中有微量Ni^0生成,乙烷便发生裂解反应,乙烯选择性立即降为零。乙烷在NiO上的氧化脱氢(ODHE)的可能反应机理为:首先乙烷与NiO中的非化学计量氧O~n(~s~)作用脱除一个α-H生成乙基自由基,然后进一步脱除一个β-H生成乙烯,乙烯生成的整个过程是在催化剂表面上进行的;副产物CO~2是由表面乙烯进一步氧化(很可能是与O~2^-,O~2^2^-作用)生成的。失去O~n~(~s~)的NiO在反应体系(一定的氧分压)中,重新生成含非化学计量氧的NiO。     

CATALYTIC ACTIVE SITES OF YTTRIUM ORTHOVANADATE IN OXIDATIVE DEHYDROGENATION OF PROPANE

用ＥＳＲ、ＮＯＴＰＤ和１８Ｏ２同位素交换的方法研究了丙烷氧化脱氢催化剂正钒酸钇ＹＶＯ４的活性位。ＥＳＲ和ＮＯＴＰＤ结果证明催化剂中存在Ｖ４＋离子。１８Ｏ２同位素交换结果表明，Ｏ２是在Ｖ４＋及氧空位上活化的。氧的活化是催化剂在丙烷氧化脱氢中具有良好活性的原因。     

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.     

碳催化反应:关于氧化脱氢反应的综述(英文)

Carbon mediated catalysis has gained an increasing attention in both areas of nanocatalysis and nanomaterials. The progress in carbon nanomaterials provides many new opportunities to manip-ulate the types and properties of active sites of catalysts through manipulating structures, function-alities and properties of carbon surfaces. The present review focuses on progresses in carbon medi-ated oxidative dehydrogenation reactions of ethylbenzene, propane, and butane. The state-of-the-art of the developments of carbon mediated catalysis is discussed in terms of fundamental studies on adsorption of oxygen and hydrocarbons, reaction mechanism as well as effects of carbon nano-material structures and surface functional groups on the catalytic performance. We highlight the importance and challenges in tuning of the electron density of carbon and oxygen on carbon surfac-es for improving selectivity in oxidative dehydrogenation reactions.     

MgO、Al_2O_3、SiO_2催化剂上湿天然气中乙烷氧化脱氢的研究(英文)

研究了ＭｇＯ、Ａｌ２Ｏ３、ＳｉＯ２催化剂对湿天然气中乙烷氧化脱氢反应的影响，发现ＭｇＯ对乙烷脱氢有较好的活性，７００Ｃ时，Ｃ２Ｈ４选择性达４１．８５％，收率达１８．７５％。考察了催化剂酸碱性对反应的影响，适当碱性的催化剂有利于反应的进行，催化剂活性顺序与碱性大小顺序相一致为ＭｇＯ＞Ａｌ２Ｏ３＞ＳｉＯ２。催化剂活性顺序与其晶格氧流动性有顺应关系。     

铁酸盐的制备、表征及其催化性能的研究

采用空气氧化湿法制备了含Zn、 Ni、 Co的尖晶石型铁酸盐。运用XRD、IR、UV-DRS和TPR等方法对所制备的样品进行了表征。研究了铁酸盐的化学组成、结构和氧化还原性质。考察了铁酸盐对二氧化碳选择性氧化乙苯制苯乙烯的催化性能,并讨论了催化剂的结构、组成对反应活性的影响以及二氧化碳的作用。     

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。     

CATALYTIC OXYDEHYDROGENATION OF ISOBUTANE OVER LITHIUM-BASED OXIDES

研究了一些锂基氧化物对异丁烷的催化氧化脱氢作用，其中Ｌｉ２ＳｎＯ３显示出优良的催化性质，Ｌｉ２ＭｎＯ３，ＬｉＦｅ５Ｏ８和ＬｉＡｌ５Ｏ８对异丁烯的选择性较差，而Ｌｉ２ＣｅＯ３，ＬｉＦｅＯ２和ＬｉＺｎＯ２在反应条件下不稳定。系列ＬｉＳｎＯ催化剂的ＣＯ２ＴＰＤ分析表明，当ＳｎＯ２转化为Ｌｉ２ＳｎＯ３时，在表面形成了碱中心，它有利于异丁烯从催化剂表面脱附。Ｏ２ＴＰＤ和Ｈ２ＴＰＤ结果表明，此时吸附的氧物种数量降低，异丁烯的深度氧化受到抑制。Ｌｉ２ＳｎＯ３中晶格氧物种的活性对异丁烷催化氧化脱氢可能是适宜的，但不利于深度氧化。     

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.