Iron promotion of V‐HMS mesoporous catalysts for ultra‐deep oxidative desulfurization

Bimetallic Fe‐V‐HMS (HMS, hexagonal mesoporous silica) catalysts with various molar ratios of iron to vanadium were synthesized using a co‐synthesis method, and investigated for oxidative desulfurization of dibenzothiophene (DBT) using tert‐butyl hydroperoxide as an oxidant. The catalysts were characterized using X‐ray diffraction, temperature‐programmed desorption of ammonia, Fourier transform infrared spectroscopy and N₂ physical adsorption–desorption techniques. The Fe‐V‐HMS catalyst with a 2:1 molar ratio of iron to vanadium exhibited the highest total acidity and the highest catalytic activity. DBT was almost completely oxidized to dibenzothiophenesulfone, a species with a higher polarity that could be subsequently adsorbed on the Fe‐V‐HMS, and therefore the Fe‐V‐HMS acts as both a catalyst and an adsorbent simultaneously. The desulfurization rate was 98.1%. A pseudo‐first‐order model was fitted to the experimental data, and the activation energy was found to be 38.79 kJ mol^?1. The encouraging performance of Fe‐V‐HMS offers the prospect of the design of a one‐pot oxidative desulfurization process without needing extraction of sulfones from fuel oil with a chemical solvent.     

Schiff base‐functionalized boehmite nanoparticle‐supported molybdenum and vanadium complexes: efficient catalysts for the epoxidation of alkenes

Boehmite nanoparticles, with high surface area and high degree of surface hydroxyl groups, were prepared via hydrothermal‐assisted sol–gel processing of aluminium 2‐butoxide. The produced powder was covalently functionalized with 3‐(trimethoxysilyl)propylamine, and then, in order to support vanadium oxosulfate and molybdenum hexacarbonyl complexes, all the terminal amine groups were changed to Schiff bases by refluxing with salicylaldehyde. These catalysts were applied in the epoxidation of cis‐cyclooctene and other olefins with tert‐BuOOH in CCl₄. The catalytic procedures for both catalysts were optimized for various parameters such as solvent and oxidant. Recycling experiments revealed that these heterogeneous nano‐catalysts could be repeatedly applied for the epoxidation of alkenes. Copyright © 2015 John Wiley & Sons, Ltd.     

H2WO4/GO的制备及其超声-氧化脱除模拟油中的硫化物

以钨酸和氧化石墨烯为原料,利用浸渍法将钨酸负载到氧化石墨烯上制得H₂WO₄/GO。采用XRD、FT-IR、SEM、BET表征确定H₂WO₄/GO的形态及其结构。以H₂WO₄/GO作为催化剂,H₂O₂作为氧化剂,乙腈作为萃取剂超声氧化脱除模拟油中的二苯并噻吩（DBT）。实验表明,在模拟油为5 mL,钨酸的负载量为30%（质量分数）,催化剂为0.02 g,乙腈为1 mL,H₂O₂/S（mol ratio）为8,反应温度为50℃,超声功率为150 W的最佳反应条件下,二苯并噻吩（DBT）、4,6-二甲基二苯并噻吩（4,6-DMDBT）、苯并噻吩（BT）的脱除率分别达到96.6%、81.2%、72.8%。同时,考察了催化剂的循环使用性能,并对超声氧化脱硫机理进行了研究。     

Oxidative desulfurization of model diesel oil over Ti-containing molecular sieves using hydrogen peroxide

Three Ti-containing molecular sieves were studied in the oxidative desulfurization (ODS) of model diesel oil with hydrogen peroxide. Under optimal conditions, dibenzothiophene (DBT) conversion up to 80.6% and 42.6% could be obtained with Ti-HMS and Ti-MSU as catalysts, respectively. However, there is no activity in the sulfoxidation of DBT over TS-1. Effects of the TiO₂/SiO₂ ratio in Ti-HMS and reaction conditions, such as the reaction temperature, reaction time, n(H₂O₂)/n(S) on the sulfur removal were investigated.     

Promotion of oxidative desulfurization performance of model fuel by 3DOM Ce-doped HPW/TiO2 material

Phosphotungstic acid (HPW) supported on Ce-doped three-dimensional ordered macroporous (3DOM) TiO₂ catalysts are studied in catalytic oxidation desulfurization (ODS) of model oil. The structural and textural of as-synthesized catalysts are characterized by N₂ adsorption, XRD, Raman spectroscopy, SEM-EDS, TEM, FT-IR, XPS, UV–Vis and ICP. These results upheld the existence of periodically arranged macroporous structure of catalyst, with Keggin-type of HPW dispersed homogeneously on TiO₂ matrix. Among these 3DOM Ce-doped HPW/TiO₂ materials, catalyst with 15 wt.% cerium dosage exhibits best ODS performance, which oxidized 99.8% of dibenzothiophene (DBT) into corresponding sulfone within 40 min. The excellent ODS performance of 3DOM Ce-doped HPW/TiO₂ catalyst is related to the common influence of more oxygen vacancies produced by electron transformation between Ce³⁺ and Ce⁴⁺. The chemisorbed oxygen on the surface catalyst will facilitate the selective oxidation of sulfides to sulfones. Moreover, the 3DOM structure of catalyst will further promote the mass transfer of reactants and products on the pore channel. The as-prepared catalyst shows excellent reusability in the ODS system, no obviously decrease in catalytic activity even after 6 runs.     

CuWO4/C复合物的制备和其在模拟油氧化脱硫中的应用

用混合煅烧法制备了CuWO₄/C复合物,并采用XRD、SEM、和BET等技术对其结构进行表征。以CuWO₄/C复合物为催化剂、过氧化氢为氧化剂、1-乙基-3-甲基咪唑硫酸乙酯盐离子液体为萃取剂氧化脱除模拟油中的二苯并噻吩(DBT)。考察了反应温度、双氧水加入量、萃取剂加入量等因素对脱硫效果的影响。结果表明,在相同的实验条件下,相比于CuWO₄,CuWO₄/C复合物具有更高的脱硫率。在模拟油为5.0 mL、催化剂加入量为0.02 g、H₂O₂加入量0.2 mL、萃取剂加入量1.0 mL、反应温度70℃、反应时间180 min的最佳实验条件下,DBT转化率可达到98.2%,催化剂循环使用四次活性没有明显降低。     

功能化含磷钼酸介孔硅材料的制备及其在深度氧化脱硫中的应用

随着全球工业的快速发展,化石燃料的消耗量日益增加,从而导致有毒污染物的排放量随之增加.燃料油中的含硫化合物燃烧后会形成SOx.SOx排放到大气中会形成酸雨污染环境.因此,超清洁燃料的生产迫在眉睫.目前主要的脱硫工艺为加氢脱硫(HDS).HDS能够有效脱除燃油中的硫醚、硫醇和二硫化物等含硫化物,但对于芳香族硫化物及其衍生物(如苯并噻吩、二苯并噻吩和4,6-二甲基二苯并噻吩等)的脱除效果较差,而且HDS需要在高温、高压且有合适催化剂存在的条件下进行反应.因此,开发操作简单、反应条件温和、能够高效脱除芳香族硫化物及其衍生物的脱硫工艺已成为目前研究的热点.催化氧化脱硫(CODS)能够在温和条件下高选择性脱除芳香族硫化物及其衍生物,作为HDS的有效补充,在深度脱硫领域的应用得到了广泛认可.目前适用于CODS的催化剂有分子筛、甲酸、过氧化物酶、氧化钼和杂多酸等.其中,含钼(VI)催化剂在CODS中表现出良好的性能,得到了广泛的研究和应用.在CODS中,催化剂载体同样起着重要作用.从实际应用角度出发,无定形二氧化硅在制备过程及经济性方面存在着不可替代的优势.到目前为止,无定形SiO2负载磷钼酸(HPMo)作为CODS催化剂的研究鲜有报道.本课题组以聚乙烯吡咯烷酮(PVP)为介孔模板剂,以正硅酸四乙酯(TEOS)为硅源,通过沉淀法直接合成了功能化含HPMo介孔复合材料HPMo-SiO2.采用XRD,FT-IR,31P-NMR和XPS等测试手段对所制备的材料进行了表征.结果表明,作为催化活性位点的钼以磷钼酸的形式存在,磷钼酸的Keggen结构在负载过程中没有遭到破坏,并且活性磷钼酸能够均匀分散在二氧化硅载体上.HPMo-SiO2的比表面积为365.0 m2/g,总孔容为1.237 cm3/g,平均孔径为12.91 nm.本文系统研究了模型油脱硫反应条件、催化剂循环使用次数及催化反应动力学.结果表明,HPMo-SiO2具有高效的脱硫活性,在反应温度为55oC,催化剂与模型油质量比为0.7%,反应时间为10 min的条件下,二苯并噻吩(DBT)脱除率可达100%;在反应温度为60oC,催化剂与模型油质量比为1.0%,反应时间为30 min的条件下,苯并噻吩(BT)脱除率可达100%.同等反应条件下,DBT的反应活性大于BT.DBT及BT的氧化脱除反应均符合表观一级动力学模型,且DBT脱除反应的表观活化能小于BT脱除反应.所制备的催化剂经过10次循环使用,DBT脱除率仍可以达到95.2%(BT为95.7%),说明所制备的HPMo-SiO2催化剂具有高活性和强稳定性.通过气质联用及微库仑仪对反应产物进行了分析,结果表明,BT和DBT的氧化产物分别为苯并噻吩砜(BTO2)和二苯并噻吩砜(DBTO2),且氧化产物全部被催化剂吸附,油品中没有含硫化合物的存在,因此不需要后续的氧化产物分离操作,提高了整个脱硫工艺的经济性,并且有效减少了分离操作带来的油品损失.     

丙烷在负载型V2O5/Zr3(PO4)4催化剂上的氧化脱氢

制备了无定型的磷酸锆Ｚｒ３（ＰＯ４）４载体,采用浸渍法在载体上负载０６％～６０％的Ｖ２Ｏ５．所制备的催化剂在丙烷氧化脱氢反应中具有较好的催化性能,如３０％Ｖ２Ｏ５／Ｚｒ３（ＰＯ４）４催化剂在丙烷转化率为１７０％时,丙烯选择性可达５３８％,丙烯收率达９１％．考察了不同反应条件下催化剂的性能．ＸＲＤ、ＩＲ和Ｒａｍａｎ光谱表明,Ｖ２Ｏ５在Ｚｒ３（ＰＯ４）４载体上主要是以高度分散的钒氧物种存在;ＥＳＲ分析结果证明催化剂中存在Ｖ４＋物种,表明Ｖ５＋／Ｖ４＋参与了氧化还原反应．     

氯化胆碱/草酸型低共熔溶剂氧化脱除模拟油硫化物

通过氯化胆碱和草酸在100℃下搅拌,合成了氯化胆碱/草酸型低共熔溶剂。以氯化胆碱/草酸为催化剂、过氧化氢为氧化剂、咪唑氟硼酸盐离子液体为萃取剂氧化萃取一体法脱除模拟油中的二苯并噻吩(DBT)。考察了反应温度、反应时间、氧化剂加入量、萃取剂类型、硫化物类型等因素对脱硫效率的影响。结果表明,当以咪唑氟硼酸盐为萃取剂,n(H2O2)/n(S)=8、反应温度30℃、反应80 min时,二苯并噻吩的脱除率可以达到95%。催化剂重复使用5次后,脱硫率仍然保持在90%。     

Hexacyanoferrate‐based ionic liquids as Fenton‐like catalysts for deep oxidative desulfurization of fuels

Two hexacyanoferrate‐based ionic liquids, [C₄Py]₃Fe(CN)₆ and [C₁₆Py]₃Fe(CN)₆, were synthesized and characterized using Fourier transform infrared and mass spectroscopies and CHN analysis. They were employed as Fenton‐like catalysts in extraction and catalytic oxidative desulfurization of model oil with dibenzothiophene (DBT), benzothiophene (BT), 4,6‐dimethyldibenzothiophene (4,6‐DMDBT), 4‐methyldibenzothiophene (4‐MDBT) and 3‐methylbenzothiophene (3‐MBT) as substrates. Various polar solvents, such as ionic liquids, water and organic solvents, were applied to choose a suitable extractant. The results showed the removal of DBT reached 97.1% with [C₄Py]₃Fe(CN)₆ as a catalyst and 1‐n‐octyl‐3‐methylimidazolium hexafluorophosphate ([C₈mim]PF₆) as an extractant under optimal conditions. The activity of sulfur removal followed the order DBT > 3‐MBT > BT > 4‐MDBT >4,6‐DMDBT. The effect of water content on sulfur removal was investigated by adding various concentrations of H₂O₂. It was found that excess water had a positive effect on sulfur removal but the catalysts were less sensitive than [FeCl₄^?]‐based catalysts to water. The mechanism was studied using electron spin‐resonance spectroscopy and gas chromatography–mass spectrometry. O₂^?? may be the active oxygen species in the catalytic oxidative desulfurization process and the oxidation products of various sulfur compounds were the corresponding sulfoxides and sulfones. Copyright © 2016 John Wiley & Sons, Ltd.     

NiWO_4/g-C_3N_4的制备及其在离子液体中氧化脱硫性能的研究

采用水热法合成了NiWO_4纳米粒子,然后通过混合煅烧法成功地制备了负载型催化剂NiWO_4/g-C_3N_4。采用XRD、FT-IR、EDS、SEM、BET和XPS表征了NiWO_4/g-C_3N_4的形貌和结构特征。以NiWO_4/g-C_3N_4为催化剂,过氧化氢为氧化剂,1-丁基-3-甲基咪唑四氟硼酸盐离子液体([BMIM]BF4)为萃取剂。考察了催化剂的负载量,过氧化氢、离子液体和催化剂使用量,反应温度,反应时间,不同种类的含硫化合物对脱硫效果的影响。结果表明,在5 m L模拟油,0.2 m L过氧化氢,1.0 m L的[BMIM]BF4,0.03 g的NiWO_4/g-C_3N_4,反应温度为80℃,反应时间为140 min的最佳的反应条件下,脱硫率可以达到97.35%。实验表明,NiWO_4/g-C_3N_4具有很好的催化稳定性,催化剂重复使用五次后催化活性并没有明显地降低。     

Efficient synthesis of 5‐substituted tetrazoles catalysed by palladium–S‐methylisothiourea complex supported on boehmite nanoparticles

An efficient and general method is reported for the synthesis of 5‐substituted 1H ‐tetrazole derivatives in the presence of S ‐methylisothiourea complex of palladium immobilized on boehmite nanoparticles (Pd‐SMTU@boehmite) as an efficient and recyclable nanocatalyst. Boehmite nanoparticles were not sensitive to air or moisture and were prepared without inert atmosphere in water at room temperature. Then a novel type of phosphine‐free palladium complex was immobilized on these nanoparticles. This catalyst was characterized using Fourier transform infrared, thermogravimetric, Brunauer–Emmett–Teller, transmission and scanning electron microscopic, energy‐dispersive X‐ray spectroscopic, X‐ray diffraction and inductively coupled plasma optical emission spectroscopic techniques. The catalyst was reused several times without palladium leaching or change in its structure.     

Catalytic oxidation of furan and hydrofuran compounds 8. Synthesis of 5-ethoxycarbonyl-4-hydroxy-3-oxo-2(3H)-furanone by the oxidation of furfural in the system aqueous H2O2-VOSO4-ethanol

The special features of the oxidation of furfural by aqueous hydrogen peroxide in the presence of vanadyl sulfate and ethanol has been studied for the first time. It has been established that this reaction proceeds with the formation of previously unknown oxidation products of furan compounds, one of which was isolated from the reaction mixture as the ethyl ester. It was established by spectral methods and qualitative reactions that this product is 5-ethoxycarbonyl-4-hydroxy-3-oxo-2(3H)-furanone. __________ Translated from Khimiya Geterotsiklicheskikh Soedinenii, No. 3, pp. 386–392, March, 2008.     

N2O在Au/Co3O4和Au/ZnCo2O4催化剂上的分解反应

通过调变HAuCl₄溶液的pH值和Au负载量,用沉积-沉淀法制备了一系列Au/Co₃O₄催化剂,并采用AES、BET、XRD、SEM、XPS和H₂-TPR等技术对催化剂的结构和组成进行了表征,考察了制备条件对其在有氧气氛中催化N₂O分解反应性能的影响规律,得到了催化剂最佳制备条件:HAuCl₄溶液pH值为9,Au负载量为0.29%。催化测试结果表明:虽然ZnCo₂O₄的催化活性优于Co₃O₄,但0.31%Au/ZnCo₂O₄的活性和稳定性低于0.29%Au/Co₃O₄。500℃、在含氧气氛中连续反应10 h, 两者均可完全分解N₂O,但在含氧、含水气氛中0.29%Au/Co₃O₄和0.31%Au/ZnCo₂O₄上的N₂O转化率分别为92%和63%。究其原因,发现Au/Co₃O₄中Au和Co组分间存在协同效应,而Au/ZnCo₂O₄中Au和Co组分间则没有协同效应。     

Crystal structure and properties of the new vanadyl(IV)phosphates Na2MVO(PO4)2, M=Ca and Sr

Two new complex vanadyl(IV)phosphates Na₂MVO(PO₄)₂ (M=Ca, Sr) were synthesized in evacuated quartz ampoules and investigated by means of X-ray diffraction, electron microscopy, DTA, ESR and magnetic susceptibility measurements. The crystal structure of Na₂SrVO(PO₄)₂ was solved ab initio from X-ray powder diffraction data. Both compounds are isostructural: a=10.5233(3) Å, b=6.5578(2) Å, c=10.0536(3) Å and a=10.6476(3) Å, b=6.6224(2) Å, c=10.2537(3) Å for Ca and Sr, respectively; S.G. Pnma, Z=4. The compounds have a three-dimensional structure consisting of V⁴⁺O₆ octahedra connected by PO₄ tetrahedra via five of the six vertexes forming a framework with cross-like channels. The strontium and sodium atoms are located in the channels in an ordered manner. Electron diffraction as well as high-resolution electron microscopy confirmed the structure solution. The new vanadylphosphates are Curie-Weiss paramagnets in a wide temperature range down to 2 K with θ=12 and 5 K for Ca and Sr phases, respectively.     

Synthesis and non-parametric evaluation studies on high performance of catalytic oxidation-extraction desulfurization of gasoline using the novel TBAPW11Zn@TiO2@PAni nanocomposite

In this work, the new catalyst (assigned as TBAPW₁₁Zn@TiO₂@PAni) was successfully designed and synthesized on the basis of quaternary ammonium salt of zinc monosubstituted phosphotungstate [(n-C₄H₉)₄N][PW₁₁ZnO₃₉] (TBAPW₁₁Zn), titanium dioxide (TiO₂), and polyaniline (PAni). This study reports the catalytic oxidation-extraction desulfurization (ECODS) of sulfur-containing molecules from real and the simulated (Th, BT, and DBT) gasoline using new organic–inorganic hybrid catalyst (TBAPW₁₁Zn@TiO₂@PAni). The ECODS results were shown that the concentration of sulfur compounds (SCs) of real gasoline was lowered from 0.4992 to 0.0122 wt.% with 97% efficiency at 35 °C after 1 h. Furthermore, the synthesized heterogeneous nanocatalyst showed high stability and reusability after five times without significant loss of activity. The high performance of TBAPW₁₁Zn@TiO₂@PAni/H₂O₂/CH₃CO₂H system can be a promising route with a superb potential in the generation of ultra-low-sulfur gasoline. Also the Mann–Whitney U-test results show that there is not a significant difference between the mean of sulfur percentage for DBT & BT, BT & Th and DBT & Th in the presence of the catalyst. Based on the Kruskal–Wallis test results, we can conclude that the temperature, time and amount of catalyst have a significant effect on ECODS efficiency of TBAPW₁₁Zn@TiO₂@PAni nanocomposite.     

从三聚氰胺制得工业用深度脱硫的绿色纳米催化剂PMoV/Fe3O4/g-C3N4: 合成与表征

采用简便的化学浸渍法制备了新型磁性可分离的纳米复合物H5PMo10V2O40/Fe3O4/g-C3N4(PMoV/Fe3O4/g-C3N4),并进行了详细的表征,采用电位滴定法测定了催化剂酸性.该PMoV/Fe3O4/g-C3N4纳米复合物在硫化物选择氧化为砜或亚砜的反应中表现出较高的催化活性;考察了在优化反应条件下,它在含硫(包括二苯并噻吩DBT)模拟油或真实石油的催化氧化反应中的催化性能;特别考察了各种含氮化合物,以及1-环和2-环芳香烃作为共溶剂对DBT脱硫效果的影响.采用外加磁场即可方便地将该催化剂从反应混合物中分离和回收.选取最好的萃取剂,通过简单的倾滤就可很容易地将剩余反应物从产物中分离出来.该纳米催化剂具有高催化活性,且容易重复使用,至少可以重复使用4次而未见催化活性明显下降.     

Pt/Co3O4/3DOM Al2O3：甲苯燃烧的高效催化剂

与硫氧化物、氮氧化物、一氧化碳以及悬浮颗粒一样,大部分挥发性有机物(VOCs)污染大气环境.控制 VOCs排放有多种方法,其中催化氧化法是一种有效技术,关键在于获得高效催化剂.
　　近年来,负载过渡金属和贵金属催化剂因具有比单纯负载贵金属和单纯负载过渡金属氧化物更好的催化性能而备受关注.在负载贵金属催化剂中,高比表面积载体负载 Pt, Pd或 Rh催化剂得到广泛而深入的研究,尽管这些催化剂成本较高,但是其对 VOCs氧化反应显示了很高的低温催化活性.众所周知,催化活性取决于贵金属和 VOCs的种类,不同负载贵金属催化剂对特定反应会表现出不同的催化活性.负载 Pt催化剂对长链碳氢化合物和芳香族化合物氧化反应表现出更高的活性.相对于负载贵金属催化剂,负载过渡金属氧化物催化剂不仅具有良好的氧化活性,而且价格低廉.迄今已发现许多过渡金属氧化物(如 Co3O4, Cr2O3和 MnO2等)对典型 VOCs氧化反应具有催化活性,其中 Co3O4的催化活性尤为突出.研究表明, Co3O4的性质和分散度是决定其性能的关键因素,制备方法、载体性质和过渡金属氧化物负载量对 Co3O4的物化性质具有重要影响,而且在负载 Pt催化剂中添加金属氧化物能改善其催化性能.尽管多孔氧化铝是一种常用的载体材料,但目前尚无文献报道三维有序大孔-介孔氧化铝负载 Co3O4和 Pt纳米粒子催化剂的制备及其对甲苯氧化反应的催化性能.
　　本文采用聚甲基丙烯酸甲酯微球胶晶模板法、等体积浸渍法和聚乙烯醇保护的硼氢化钠还原法制备了三维有序大孔-介孔(3DOM Al2O3)负载 Co3O4和 Pt (xPt/yCo3O4/3DOM Al2O3, Pt的质量分数(x%)为0-1.4%, Co3O4的质量分数(y%)为0-9.2%)纳米催化剂.通过电感耦合等离子体原子发射光谱、X射线衍射、氮气吸附-脱附、扫描电子显微镜、透射电子显微镜、选区电子衍射、X射线光电子能谱及氢气程序升温还原等技术表征了催化剂的物化性质,利用固定床微型石英反应器评价了催化剂对甲苯氧化反应的催化活性.结果表明,xPt/yCo3O4/3DOMAl2O3催化剂具有多级孔结构(大孔孔径为180–200 nm,介孔孔径为4–6 nm),比表面积为94?102 m2/g.粒径为18.3 nm的 Co3O4纳米粒子和粒径为2.3?2.5 nm的 Pt纳米粒子均匀分散在3DOM Al2O3表面.在xPt/yCo3O4/3DOM Al2O3催化剂中,1.3Pt/8.9Co3O4/3DOM Al2O3拥有最高的 Oads浓度、最好的低温还原性和最高的甲苯氧化反应催化活性(当空速为20000mL g–1 h–1时,甲苯转化率达90%的反应温度为160oC).基于催化剂的活性数据和结构表征,我们认为,1.3Pt/8.9Co3O4/3DOM Al2O3优异的催化性能与其高分散的 Pt纳米粒子、高的 Oads浓度、好的低温还原性、Pt和 Co3O4纳米粒子间的强相互作用以及多级孔结构相关.     

工业NiW/Al2O3催化剂上二苯并噻吩的加氢脱硫动力学

以二苯并噻吩(DBT)为含硫模型化合物, 在高压滴流床反应装置中,考察了工业NiW/Al2O3催化剂（RN-10）的加氢脱硫(HDS)动力学规律,研究了氢分压（1.5 MPa～4.5 MPa）、氢油体积比（150~700）、液体质量空速(15 h-1~60 h-1）、反应温度（280 ℃~380 ℃）等对DBT的HDS反应结果的影响。结果表明,当氢分压和氢油体积比较大时,两者变化对DBT的转化率基本无影响;温度对DBT的转化率影响较大,提高温度可有效提高DBT的转化率,随着温度的升高,DBT转化率的增加逐渐变缓。采用2级平推流反应动力学模型对不同温度实验数据进行了拟合,求得了不同温度的表观反应速率常数,模型的相关系数>0.989。活化能计算结果表明,RN-10催化剂在高反应温度区(>330 ℃)的DBT的HDS活化能明显低于较低温度时的活化能,分别为13.4 kJ/mol和121.4 kJ/mol。对于RN-10催化剂,不可单纯地通过提高反应温度来大幅度提高HDS转化率。