还原气氛对钴锆共沉淀催化剂结构和费托合成反应性能的影响

采用程序升温还原、氮吸附、原位X射线衍射、扫描电镜和透射电镜等方法研究了不同还原气氛对钴锆共沉淀催化剂结构的影响,并考察了催化剂上费托合成反应的性能.结果表明,H2还原对催化剂的破坏程度较小,活性相主要是面心立方钴;CO还原导致催化剂发生积碳,催化剂中出现面心立方钴和六方钴的混晶;合成气还原使催化剂烧结严重,单质钴以面心立方和六方两种晶相存在.费托合成反应结果表明,CO还原后催化剂没有催化性能,H2还原与合成气还原后催化剂的催化活性相差不大,但前者CH4选择性较低.     

Ru助剂对Co/SiO2催化剂费托合成反应性能的影响

 考察了 Ru 助剂 (0.17%?9.96%) 对 Co/SiO2 催化剂结构及其费托合成反应性能的影响. 结果表明, Ru 助剂可降低 Co/SiO2 催化剂的还原温度, 从而提高其还原度. 光电子能谱和扩展 X 吸收射线精细结构研究表明, 即使 Ru 含量高达 9.96%, 在 Co/SiO2 催化剂焙烧过程中也未观察到 Ru 物种与 Co 物种作用形成的化合物. 还原后催化剂中 Ru 趋向于与 Co 物种紧密接触且分散在催化剂表面. H2 程序升温脱附结果表明, 随着 Ru 含量的增加, 位于反应温度附近的 H2 脱附峰面积增加, 即此时催化剂吸附 H2 能力提高, 因此反应活性单调增加, 但存在最佳 Ru 含量, 此时 C5+选择性最高.     

预处理气氛对Co-ZrO2共沉淀催化剂结构的影响

考察了共沉淀Co-ZrO2催化剂在不同气氛(Ar、H2、CO和CO+H2)、不同温度下处理后, 催化剂织构、晶相以及形貌的变化规律. 结果表明, 在惰性气氛或氢气氛处理过程中, 催化剂在500 ℃以上发生明显烧结. 经上述处理并暴露于空气后, 催化剂中钴物种均以Co3O4形式存在, 且催化剂粒子外形无明显变化. CO气氛还原使催化剂破碎严重, 同时发生明显的积碳现象, 催化剂中钴物种以面心单质钴为主要形式. 合成气处理对催化剂破坏行为不明显, 但催化剂烧结现象严重, 催化剂中Co物种以面心立方和六方两种晶型共存.     

还原气氛对CoFe/SBA-15催化剂F-T反应性能的影响

考察了不同还原气氛处理CoFe/SBA-15催化剂对F-T反应性能的影响。结果表明,H2气氛下有利于六方钴的生成;催化剂的活性取决于钴含量,随着钴含量的增加,F-T反应中CO转化率增加,C5+选择性增加。随着铁含量的增加,催化剂表现了较高的CO2选择性。CO还原有利于立方钴的生成,导致催化活性相比H2还原的催化剂活性要低。同时CO还原容易产生积炭使催化剂的钴活性位被覆盖,导致甲烷选择性随着钴含量增加而升高。但碳化铁的生成有利于提高20Fe/SBA-15催化剂的活性,有利于低碳烃生成及C2~4烃烯烷比增加。     

铈助剂对Co/SiO2催化剂费托合成反应性能的影响

 考察了铈助剂对钴基催化剂上费托合成反应性能的影响,并进行了TPR和XRD等表征及瞬变应答研究．结果表明,加入铈助剂后,催化剂的活性和C5＋烃类的选择性有显著提高,且C5＋烃类分布有明显改变,有利于中间馏分油的生成．CODEX软件优化表明,当n（Ce）／n（Co）＝0．2～0．3,w（Co）＝10％,焙烧温度为740K时,在GHSV＝500h－1,p＝1．2MPa,T＝483K的反应条件下,C5＋烃类收率可达83％左右．根据实验结果,可以推测在钴基催化剂表面存在弱、中、强三种化学吸附的CO物种;－CH2－基团可能通过强度适中的化学吸附CO直接加氢生成;强化学吸附的CO是指离解吸附的CO,可发生歧化反应生成CO2和积炭,并覆盖部分活性位;加入铈助剂能抑制强化学吸附的CO生成,从而显著地提高了催化剂的活性．     

费托合成钴基催化剂微观结构研究进展

费托合成可将煤、天然气及生物质等各种非石油含碳资源通过合成气转化为各种油品和精细化学品.钴基催化剂因其水煤气变换反应活性低、费托反应活性高、碳链增长能力高的优良特点,在工业应用和相关科学研究上备受关注.钴基催化剂微观活性位的结构和费托反应过程中催化剂的表面吸附物等都会对F-T合成反应的产物分布以及催化性能有影响.本文分...     

钍含量对Co/HMS催化剂结构和费托合成的影响

详细研究了钍含量对15% Co/HMS催化剂结构、费托合成CO转化率和烃分布的影响, 结果表明: 钍助剂的添加降低了催化剂的钴还原度, 并可使催化剂钴晶粒减小, 且存在钍物种对钴物种的覆盖; 钴晶粒的减小、较高钍含量时催化剂里钍物种对钴物种的覆盖和钴物种还原性能的降低, 使催化剂存在最优的钍含量, 此时催化剂表面暴露的金属钴原子最多, 较好地解释了钍含量达到1.5 wt%时, 催化剂CO转化率最高的实验现象. 烃分布研究表明: 反应温度较低时钍助剂将促进产物链的增长和高碳烃选择性的增加, 但反应温度较高时难以促进产物链的增长.     

乙醇浸渍对Co/SBA-15费托合成催化剂性能的影响

采用等体积浸渍法分别以乙醇和水为溶剂制备了Co/SBA-15催化剂,通过N2物理吸附、X射线衍射和程序升温还原等方法对催化剂进行了表征,并在固定床反应器中评价了催化剂的费托合成反应性能.结果表明,乙醇浸渍制备的催化剂钻粒子尺寸较小,金属钻分散度较高,钴粒子与载体之间的相互作用较强,还原温度较高,其费托合成反应活性和高碳烃选择件高十水溶液浸渍制备的催化剂.     

还原温度对双介孔钴基催化剂费-托合成性能的影响

通过等体积浸渍法制备了双介孔钴基催化剂,采用XRD、BET、SEM、H2-TPR等手段考察了催化剂的性质,并研究了还原温度对催化剂结构及费托合成催化性能的影响。结果表明,随着还原温度的提高,催化剂活性位增加,活性增加,但增加到一定程度后活性降低,而甲烷选择性随着还原温度的提高逐渐增加,这是反应过程中催化剂表面存在的钴氧化物,使得水煤气反应变得活跃,烃产物移向低碳烃。     

SO2-4对铁基催化剂上费托合成反应的影响

以FeCuK/SiO2为母体催化剂,用不同浓度的NH4HSO4水溶液进行等体积浸渍,制备了不同SO2-4含量的费托合成(FTS)铁基催化剂.采用原子发射光谱、低温N2吸附、 X射线光电子能谱、程序升温还原和穆斯堡尔谱等技术对催化剂进行了表征,并在H2/CO摩尔比0.67,WHSV=2 000 h-1,压力1.5 MPa和温度250 ℃条件下进行了浆态床FTS反应.结果表明,少量SO2-4能促进催化剂在H2中的还原;在合成气还原过程中,少量SO2-4对催化剂的碳化程度影响不大,但大量SO2-4严重抑制催化剂的碳化.在约500 h的运行实验中,各催化剂样品表现出的催化活性有所差异,但均呈现较好的稳定性.SO2-4可抑制水煤气变换反应活性,且随着SO2-4含量的增加,抑制作用愈加明显;同时,催化剂上浸渍少量SO2-4可有效抑制CH4的生成,提高低碳烯烃的选择性.     

Effects of promoters on catalytic performance of Fe-Co/SiO2 catalyst for Fischer-Tropsch synthesis

2%Fe-10%Co/SiO₂ catalysts with different potassium or zirconium loadings were prepared by aqueous incipient wetness impregnation and tested for Fischer-Tropsch synthesis in a flow reactor, using H₂/CO = 1.6 (molar ratio) in the feed, under the condition of an overall pressure of 1 MPa, GHSV of 600 h⁻¹ and temperature of 503 K. The zirconium and potassium promoters remarkably influenced hydrocarbon distribution of the products. CO conversion increased on the catalysts with the increase of zirconium loadings, which indicated that zirconium enhanced the activity of iron-cobalt catalysts. Low potassium loadings also enhanced the activity of the catalysts. However, high potassium loading made CO conversion on the catalysts decrease and weakened the secondary hydrogenations. The catalyst was characterized by BET, XRD and TPR. The catalyst characterization revealed that the Co₃O₄ phase was presented on the fresh catalyst, whereas the spinel phase of Fe-Co alloy and CoO existed on the used catalyst.     

Effects of ceria addition and pre-calcination temperature on performance of cobalt catalysts for Fischer-Tropsch synthesis

Summary The effect of ceria addition on the performance of 10 wt.% Co catalysts supported on SiO2 and Al2O3 for Fischer-Tropsch synthesis has been investigated. The catalysts were prepared by impregnation method and characterized by X-ray diffraction technique. The catalytic tests (P = 1 atm, T = 488 K, H2/CO = 2, GHSV=1800 h-1) indicate that with addition of ceria, significant changes in CO conversion and hydrocarbon selectivities are observed. Also, the experiments show that the performance of 10 wt.% Co-CeO2/Al2O3 depends on the ceria concentration as well as on the pre-calcination temperature.     

费-托合成Co/ZrO2-Al2O3催化剂反应性能的研究

以ZrOCl2·6H2O和AlCl3为原料,采用共沉淀方法制得一系列不同ZrO2质量分数的ZrO2-Al2O3混合氧化物载体;并以该混合氧化物为载体,采用初湿浸渍法制得钴质量分数为12％的Co/ZrO2-Al2O3催化剂。XRD、NH3-TPD、TPR和原位IR等表征结果表明,随着混合载体中ZrO2质量分数的增加,载体比表面积先增加后减少,混合载体的平均孔径则小于单一氧化物ZrO2和Al2O3的平均孔径。ZrO2和Al2O3载体混合后会导致氧化物的比表面积和酸性增大并且有新的物相生成。当混合氧化物用作载体时,能够抑制载体表面金属钴的分散,改变催化剂的还原行为,降低催化剂对CO物种的吸附能力。CO加氢反应表明,与单一金属氧化物相比,钴负载ZrO2-Al2O3混合氧化物催化剂的加氢活性和重质烃选择性有所降低。     

Effects of the ratio of Fe to Co over Fe-CO/SiO2 bimetallic catalysts on their catalytic performance for Fischer-Tropsch synthesis

The Fe-Co/SiO2 bimetallic catalysts with different ratios of Fe to Co were prepared by aqueous incipient wetness impregnation. The catalysts of 10%Fe:0%Co/SiO2, 10%Fe:6%Co/SiO2, 10%Fe:2%Co/SiO2, 10%Fe:10%Co/SiO2, 6%Fe:10%Co/SiO2, 2%Fe:10%Co/SiO2 and 0%Fe: 10%Co/SiO2 by mass were tested in a fixed reactor by the Fischer-Tropsch synthesis. Activity and hydrocarbon distribution were found to be determined by the ratio of iron to cobalt of the catalysts. Higher iron content inhibited the activity, whereas higher cobalt content enhanced the activity of the Fe:Co/SiO2 catalysts. On the other hand, for the catalysts of 10%Fe:6%Co/SiO2, 10%Fe:10%Co/SiO2, 6%Fe:10%Co/SiO2, and 2%Fe:10%Co/SiO2, the total C2–C4 fraction increased (from 10.65% to 26.78%) and C5+ fraction decreased (from 75.75% to 57.63%) at 523 K. Temperature programmed reduction revealed that the addition of cobalt enhanced the reducibility of the Fe:Co/SiO2 catalyst. Metal oxides were present in those catalysts as shown by XRD. The Fe-Co alloy phase was found in the 2%Fe:10%Co/SiO2, 6%Fe:10%Co/SiO2, 10%Fe:10%Co/SiO2, 10%Fe:6%Co/SiO2 catalysts and their crystals were perfect.     

Effects of the ratio of Fe to Co over Fe-Co/SiO2 bimetallic catalysts on their catalytic performance for Fischer-Tropsch synthesis

The Fe-Co/SiO2 bimetallic catalysts with different ratios of Fe to Co were prepared by aqueous incipient wetness impregnation. The catalysts of 10%Fe:0%Co/SiO2, 10%Fe:6%Co/SiO2, 10%Fe:2%Co/SiO2, 10%Fe: 10%Co/SiO2, 6%Fe: 10%Co/SiO2, 2%Fe: 10%Co/SiO2 and 0%Fe: 10%Co/SiO2 by mass were tested in a fixed reactor by the Fischer-Tropsch synthesis. Activity and hydrocarbon distribution were found to be determined by the ratio of iron to cobalt of the catalysts. Higher iron content inhibited the activity, whereas higher cobalt content enhanced the activity of the Fe-Co/SiO2 catalysts. On the other hand, for the catalysts of 10%Fe:6%Co/SiO2, 10%Fe: 10%Co/SiO2, 6%Fe: 10%Co/SiO2, and 2%Fe: 10%Co/SiO2, the total C2-C4 fraction increased (from 10.65% to 26.78%) and C5+ fraction decreased (from 75.75% to 57.63%) at 523 K. Temperature programmed reduction revealed that the addition of cobalt enhanced the reducibility of the Fe-Co/SiO2 catalyst. Metal oxides were present in those catalysts as shown by XRD. The Fe-Co alloy phase was found in the 2%Fe: 10%Co/SiO2, 6%Fe: 10%Co/SiO2, 10%Fe:10%Co/SiO2, 10%Fe:6%Co/SiO2 catalysts and their crystals were perfect.     

费托合成中Co/ZrO2/SiO2催化剂的失活行为

 采用等体积分步浸渍法制备了费托合成用Co/ZrO2/SiO2催化剂,并用XRD,TPR和N2-吸附等手段对催化剂进行了表征. 考察了催化剂在费托反应过程中的结构变化和失活行为. 结果表明,反应过程中硅酸钴物种的生成是催化剂失活的主要原因,且硅酸钴的生成与产物水的分压有关; 晶粒长大也可能是催化剂失活的原因之一.     

有机改性二氧化硅及其负载钴催化剂的费托合成反应性能

利用硅烷化作用分别制得了甲基、二甲基和三甲基改性的SiO2载体,采用等体积浸渍法制备了质量分数为5%的一系列负载型钴催化剂.考察了有机改性对催化剂费托合成催化性能的影响.结果表明,SiO2经有机基团改性后,表面硅羟基浓度减小,削弱了钴硅之间的相互作用,促进了催化剂的还原,提高了催化剂的活性,降低了甲烷选择性.由于空间位阻不同,不同有机基团改性的SiO2的表面硅羟基浓度不同,催化剂活性随着表面硅羟基浓度的减小而提高.     

SiO2 的甲硅烷基化对钴基催化剂费-托合成催化性能的影响

利用甲硅烷基化作用制得了不同疏水程度的SiO₂载体,采用等体积浸渍法制备了质量分数为5%的一系列负载型钴催化剂。结合FT-IR、²⁹Si CP MAS NMR、BET、XRD、Raman、XPS和H₂-TPR等表征手段,考察了SiO₂甲硅烷基化对钴基催化剂物相结构、还原行为以及费-托合成催化性能的影响。催化剂在固定床反应器中,在p=2.0 MPa、t=240 ℃、n(H₂)/n(CO)=2和GHSV=1 000 h^-1的条件下进行评价。结果表明,随 SiO₂ 疏水程度的增加,钴催化剂的Co₃O₄晶粒长大且晶型趋于完整,钴硅相互作用减弱,还原度增加,催化剂的活性增强。