助剂CeO2对Co/Al2O3催化剂上F-T合成反应性能的影响

 在用于F－T合成的Co／Al2O3催化剂中加入少量助剂,能够提高CO转化率和C5＋烃选择性．主要考察了助剂CeO2添加量和催化剂焙烧温度等因素对F－T合成反应的影响,并通过程序升温还原、程序升温氧化及X射线衍射等手段对催化剂进行了表征．结果表明,在Co／Al2O3催化剂中加入少量CeO2（n（Ce）／n（Co）＝0．1～0．14）,能够有效提高催化剂的催化活性和C5＋烃选择性;焙烧温度则以相反的趋势控制F－T反应活性和链增长几率;助剂的加入降低了催化剂的起始还原温度,改善了催化剂的还原性能．但是,催化剂的积碳量有所增加,经10h反应后,催化剂上存在两种类型的积碳．     

Al2O3助剂对Co/SiC催化剂F-T反应性能的影响

分别采用沉淀法、尿素水解法制备Al₂O₃/SiC复合载体,采用等体积浸渍法制备Co/Al₂O₃-SiC催化剂。结合N₂吸附、XRD、H₂-TPR、XPS等表征手段,研究Al₂O₃助剂对钴基催化剂物相结构、还原行为以及F-T合成性能等的影响。结果表明,氧化铝加入后增强了载体与钴物种之间的相互作用,提高了钴物种的分散度,降低了钴物种的还原度。尿素水解法引入Al₂O₃后,载体与钴物种具有适中的相互作用,表现出较高的反应活性。沉淀法制备的载体负载钴物种后由于较强的金属-载体相互作用,表现出较优的稳定性。     

Co/SiO2催化剂合成重质烃的反应性能

对近期筛选出的一种重质烃合成反应性能良好的Co/SiO     

La2O3助剂对Co/AC催化剂上费-托合成反应性能的影响

 通过改变稀土助剂La2O3的负载量,考察了La2O3助剂对活性炭负载Co基催化剂(Co/AC)上费-托合成性能的影响,并通过XRD, SEM, TPR和CO-TPD对催化剂进行了表征. 结果表明, La2O3的加入可提高催化剂的活性,降低产物中甲烷的选择性. 对于15%Co/AC催化剂,加入少量的La2O3(w(La)=0.7%～1.7%)可使CO转化率从27%升高到56%, 甲烷选择性从16.5%下降到7.8%,C5+选择性从55.4%升高到74.7%; 但加入过多的La2O3(w(La)=8.1%～12.4%)时,甲烷选择性反而升高. XRD和SEM结果表明, La2O3的加入提高了催化剂中Co的分散度. TPR和CO-TPD结果表明, La2O3与Co之间存在着相互作用,并使催化剂的还原度下降,尤其是La2O3负载量高的催化剂还原度下降更加明显,导致Co/AC催化剂上CO的高温吸附量的增加.     

Pt,Ru和Pd助剂对F-T合成中Co/γ-Al2O3催化剂性能的影响

 采用浸渍法制备了添加贵金属Pt,Ru和Pd助剂的Co/γ-Al2O3催化剂,并考察了它们在F-T合成反应中的催化性能. 结果表明,添加贵金属助剂可以显著提高Co/γ-Al2O3催化剂的催化活性. XRD和TPR表征结果表明,贵金属助剂不但可以使催化剂的金属分散度增加,而且可以通过氢溢流促进催化剂表面活性相的Co3O4以及与载体Al2O3有相互作用的非活性相钴氧化物物种的还原,从而改善催化剂的还原性能. TPSR结果进一步表明,添加贵金属助剂后催化剂对CO的吸附解离能力增强,从而使吸附态CO的加氢活性提高.     

制备方法对Ru/CeO2催化剂结构和性能的影响

以K2RuO4和Ce(NO3)3为原料,利用物质的氧化还原特性制备了Ru/CeO2氨合成催化剂,并运用N2物理吸附、X射线衍射(XRD)、FE-SEM、CO吸附和H2程序升温还原(H2-TPR)等技术对其进行了表征,考察了还原剂和制备方法对所制备的Ru/CeO2氨合成催化剂结构和性能的影响。结果表明由自身氧化还原法制备的催化剂,其比表面积最大,达到了120 m2.g-1,钌分散度最高,为45.6%,且催化剂活性最高,在10 MPa,10000 h-1,425℃反应时,出口氨浓度达到了12.6%。     

锰助剂对F-T合成Co/Al2O3催化剂反应性能的影响

采用程序升温和原位红外技术对锰改性Co/Al2O3催化剂进行了表征，并与CO加氢反应活性和选择性进行关联.结果表明，添加适量锰能够增加反应活性，提高烃选择性，抑制甲烷及低碳烃的生成. XRD和FT IR结果表明锰助剂的添加能够促进活性相的分散，促进桥式CO吸附位数的增加. H2 TPD表明锰的加入可增加低温吸附氢量，但吸附氢量随锰含量的增加而减少.钴基催化剂的费托合成反应性能可以用锰添加导致的CO吸附态物种的变化来解释.     

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。     

Co/Zr/Al2O3-Pt/ZSM-5催化剂的制备及其合成气转化制液体燃料性能研究

以Co基催化剂耦合沸石分子筛催化剂应用于合成气催化转化可以有效改善催化剂的产物选择性。本研究通过浸渍法制备得到Zr/Al₂O₃载体和Pt/ZSM-5催化剂,再通过超声分散法制备了Co/Al₂O₃、Co/Zr/Al₂O₃和Co/Zr/Al₂O₃-Pt/ZSM-5催化剂。通过系列表征技术对载体和催化剂理化性质进行分析,评价了催化剂费-托合成反应性能。结果表明,Zr的引入有助于提升Co/Zr/Al₂O₃上Co物种的还原性,改善催化活性,增加C12+重质烃的选择性。当Co/Zr/Al₂O₃与Pt/ZSM-5耦合后,由于贵金属Pt的助剂效应,进一步促进Co物种的还原,Co/Zr/Al₂O₃-Pt/ZSM-5催化剂的CTY值提高至8.3×10^-5 mmol/(g·s),同时...     

Co/SiO2催化剂合成重质烃的反应性能

 对近期筛选出的一种重质烃合成反应性能良好的Co／SiO2催化剂进行了500h的寿命试验,考察了在不同反应温度、压力和空速条件下催化剂的反应性能．结果表明,随着反应的进行,催化剂合成重质烃的选择性基本保持不变,但催化剂的活性缓慢下降;经原位再生后,催化剂活性可基本恢复到原来的水平．烃产物主要由烷烃组成,C5＋中烯烃仅占2．25％,产物主要集中在C12～C20馏分段,水相产物中含3．56％～6．56％的有机含氧化合物,其中主要是低碳醇．     

Fischer-Tropsch synthesis over Ru/Al2O3 catalysts

Fischer-Tropsch syntheses (FTS) were carried out in a slurry phase over Ru/Al₂O₃ catalysts using hexadecane as a solvent. The outcome of the FTS was dependent on the oxide support, calcination temperature, synthesis gas composition and sulfur content. The addition of Mn/Na to Ru/Al₂O₃ was effective in raising the initial activity and C5+ selectivity, but after 20 hours, the performance of the modified catalyst was similar to that of the unmodified catalyst. An additional investigation involving the use of fresh vs used catalysts demonstrated that an agglomeration of the metallic Ru, at least in part, does occur during the reaction.     

Fischer-Tropsch synthesis over ruthenium-promoted Co/Al2O3 catalyst with different reduction procedures

The effect of reduction procedure on catalyst properties, activity and products selectivity of ruthenium-promoted Co/γ-Al2O3 catalyst in Fischer-Tropsch synthesis (FTS) was investigated. Catalyst samples were reduced with different reduction gas compositions and passivated before being characterized by TPR and XRD techniques. Different activity and product selectivity analyses were also performed. These results showed that the catalyst dispersion, particle size, and the degree of reduction changed with different reduction gas compositions, which were resulted from the water partial pressures in reduction process that give varying degrees of interaction with the support. It has been suggested that the FTS activity of cobalt catalyst was directly dependent on the catalyst reducibility. A reduction gas with a molar ratio of H2/He = 1 was used to prevent the formation of Co-support compound during catalyst reduction.     

Effect of Al2O3 Binder on the Precipitated Iron-Based Catalysts for Fischer-Tropsch Synthesis

A series of iron-based Fischer-Tropsch synthesis (FTS) catalysts incorporated with Al2O3 binder were prepared by the combination of co-precipitation and spray drying technology. The catalyst samples were characterized by using N2 physical adsorption, temperature-programmed reduc-tion/desorption (TPR/TPD) and Mossbauer effect spectroscopy (MES) methods. The characterization results indicated that the BET surface area increases with increasing Al2O3 content and passes through a maximum at the Al2O3/Fe ratio of 10/100 (weight basis). After the point, it decreases with further increase in Al2O3 content. The incorporation of AI2O3 binder was found to weaken the surface basicity and suppress the reduction and carburization of iron-based catalysts probably due to the strong K-Al2O3 and Fe-Al2O3 interactions. Furthermore, the H2 adsorption ability of the catalysts is enhanced with increasing Al2O3 content. The FTS performances of the catalysts were tested in a slurry-phase continuously stirred tank reactor (CSTR) under the reaction conditions of 260℃, 1.5 MPa, 1000 h-1 and molar ratio of H2/CO 0.67 for 200 h. The results showed that the addition of small amounts of Al2O3 affects the activity of iron-based catalysts to a little extent. However, with further increase of Al2O3 content, the FTS activity and water gas shift reaction (WGS) activity are decreased severely. The addition of appropriate Al2O3 do not affect the product selectivity, but the catalysts incorporated with large amounts of Al2O3 have higher selectivity for light hydrocarbons and lower selectivity for heavy hydrocarbons.     

Effect of La2O3 on a Precipitated Iron Catalyst for Fischer-Tropsch Synthesis

A series of La₂O₃-promoted precipitated iron catalysts (100Fe/2.8Si/nLa, n = 0, 0.5, 1, 2, and 4, atomic ratio) were prepared and characterized by in situ X-ray diffraction, CO temperature-programmed reduction, and N₂ adsorption-desorption. The catalytic performance for Fischer-Tropsch synthesis was studied in a fixed-bed reactor. It was found that the addition of a small amount of La₂O₃ (La/Fe ≤ 0.01) gave a large decrease in the particle size of Fe₂O₃, which increased the specific surface area and dispersion of the catalysts. This also favored the formation of iron carbides, which gave a high catalytic activity in Fischer-Tropsch synthesis. With increasing La₂O₃ content (La/Fe ≥ 0.02), a high La₂O₃ coverage and the formation of a LaFeO₃ compound decreased the formation of iron carbides, and the reaction activity decreased. The optimum La₂O₃ content was La/Fe = 0.01. The addition of La₂O₃ increased the selectivity for methane and suppressed the formation of C₅₊ hydrocarbons.     

表面助剂改性对Cu/ZnO/Al2O3甲醇合成催化剂性能的影响

采用共沉淀-后浸渍方法制备了表面助剂改性的Cu/ZnO/Al₂O₃ (CZA)甲醇合成催化剂, 在固定床反应器上以合成气为原料分别考察了三种助剂(Zr、Ba和Mn)对CZA催化剂性能的影响; 以Zr为助剂时反应温度的影响; 并进行了催化稳定性试验. 利用粉末X射线衍射(XRD)、低温氮气吸脱附(N₂-sorption)、氧化亚氮(N₂O)反应吸附技术、X射线光电子能谱(XPS)、氢气程序升温吸脱附(H₂-TPD)、扫描电子显微镜(SEM)和高分辨透射电子显微镜(HR-TEM)技术对催化剂进行了表征.结果显示: 以Zr或Ba作为助剂能够明显提高CZA催化剂耐热前后的甲醇时空收率(STY); Mn的引入降低了CZA催化剂的耐热前活性; Zr的引入降低了CZA催化剂最高活性温度点, 增强了CZA催化剂的催化稳定性; 还原态CZA催化剂表面Cu⁰和ZnO都能吸附活化氢气, Cu⁰与ZnO的强相互作用有利于提高催化剂的性能, 耐热后催化剂性能的降低归因于Cu晶粒的长大. 在实验和表征结果基础上,提出了CZA催化剂上合成气制甲醇的“双向同步催化反应历程”.     

CO2 fixation by hydrogenation over coprecipitated Co/Al2O3

CO₂ fixation by hydrogenation over coprecipitated 36 wt.% Co/Al₂O₃ has been studied under a range of reaction conditions to clarify the effects of reaction variables and to determine the kinetics and mechanism of the reaction. A comparison of the results with those reported for CO hydrogenation on the same catalyst indicates that, although product distributions of CO₂ and CO hydrogenation differ, the kinetics and mechanism are similar.     

助剂对Co/Al2O3催化剂浆态床费托合成反应性能影响

考察了ZrO₂、Ru或Pt助剂对Co/Al₂O₃催化剂结构及浆态床费托合成反应性能的影响。实验结果表明,添加ZrO₂助剂可阻止或降低难还原铝酸钴的形成、促进催化剂的还原、提高Co/Al₂O₃催化剂对费托合成反应的催化活性、降低甲烷选择性并提高C₅₊烃选择性。H₂-TPR表征结果表明,少量Ru或Pt助剂均能降低Co-ZrO₂/Al₂O₃催化剂中钴物种还原温度(Co₃O₄→CoO和CoO→Co⁰),提高催化剂的还原度,催化剂呈现出良好的CO加氢反应活性。此外,催化剂组分间浸渍次序对费托合成反应性能有重要影响,载体γ-Al₂O₃先浸渍Zr组分,可有效抑制难还原化合物形成;Co、Ru组分共浸渍加强了Co和Ru组分密切接触程度,更利于钴物种的还原;Co、Pt组分依次浸渍更利于活性组分的均匀分布,催化剂具有最佳的费托合成反应性能。