乙醇辅助的化学沉积法制备硫化型Mo/γ-Al2O3加氢脱硫催化剂

以硫代乙酰胺为硫源,钼酸钠为钼源,乙醇为分散剂,采用化学沉积法制备了MoS₃/Al₂O₃催化剂前驱体,再用H₂高温处理得到高分散硫化型MoS₂/γ-Al₂O₃催化剂,运用N₂吸附-脱附、X射线光电子能谱以及高分辨透射电子显微镜等技术对MoS₂/γ-Al₂O₃催化剂进行了表征,并以二苯并噻吩作为模型化合物评价了催化剂的加氢脱硫(HDS)活性.结果表明,与浸渍法相比,所制催化剂具有更大的比表面积和孔体积、更高的活性金属分散度、更佳的Mo物种硫化度以及更短的MoS₂片层长度和更高的堆积度,因而在二苯并噻吩HDS反应中表现出远优于浸渍法所制催化剂的活性.乙醇可通过S?H-O氢键吸附至MoS₃纳米粒子表面,可有效防止其生长和团聚,起到分散剂的作用.     

CoMo/TiO2-Al2O3催化剂的气相氟化改性

采用连续流动微型催化反应装置和氮气吸附等方法研究了气相预氟化和氟化铵溶液浸渍处理对CoMo/ TiO2-Al2O3噻吩加氢脱硫催化活性和物化性能的影响.通过对0.5 ％～7 ％ (φ)各种氟里昂浓度和473～773 K各种温度及不同时间氟化处理的样品进行详细考察,发现在623 K下由含氟里昂1％(φ)的湿空气氟化的载体制备的催化剂样品,其噻吩的加氢脱硫的活性有明显改善,相对于非氟化样品、BY-2工业催化剂以及氟化铵溶液浸渍处理的催化剂活性提高20％～30％,且非常稳定.初步表征还表明,氟里昂气相加氟与氟盐溶液浸渍加氟相比较,有不破坏催化剂结构和不降低催化剂比表面积的优点.     

二苯并噻吩在负载型CoMoNx/γ-Al2O3催化剂上的加氢脱硫

用浸渍法制备出β－Ａ１２Ｏ３负载不同Ｃｏ／（Ｃｏ＋Ｍｏ）比的ＣｏＭｏ氧化物,以其作为前驱体,在Ｎ２－Ｈ２混合气体中程序升温反应,合成出一系列ＣｏＭｏＮｘ／β－Ａ１２Ｏ３催化剂催化ＤＢＴ的脱硫作为模型反应,评价了催化剂的催化活性和选择性。研究表明,ＣｏＭｏＮｘ／β－Ａ１２Ｏ３催化剂催化ＤＢＴ的脱硫有两条途径：一是直接氢解脱硫,产物为联苯;另一途径是ＤＢＴ上的苯环先加氢然后脱硫,主要产物是环己基苯。中     

TiO2负载非晶态合金NiB催化剂的制备、表征及HDS动力学研究

用等体积浸渍－还原法制备了负载型的ＮｉＢ／ＴｉＯ２（Ｂ／Ｎｉ＝５：１摩尔比）非晶态合金,并在相同条件下制备了ＮｉＢ／Ａｌ２Ｏ３（Ｂ／Ｎｉ＝５：１摩尔比）与之对照。用ＸＲＤ,ＳＥＭ和ＴＥＭ等表征方法比较了样品的非晶性质,在脉冲反色谱装置上以噻吩的ＨＤＳ反应为探针测定了ＮｉＢ／ＴｉＯ２、ＮｉＢ／Ａｌ２Ｏ３的反应活性,进行了动力学研究。结果证明,ＮｉＢ／ＴｉＯ２的低温活性远高于ＮｉＢ／Ａｌ２Ｏ３,其原因     

Kinetics of thiophene hydrodesulfurization over a supported Mo–Co–Ni catalyst

In this study, the kinetics of thiophene (TH) hydrodesulfurization (HDS) over the Mo–Co–Ni-supported catalyst was investigated. Trimetallic catalyst was synthesized by pore volume impregnation and the metal loadings were 11.5 wt % Mo, 2 wt % Co, and 2 wt % Ni. A large surface area of 243 m²/g and a relatively large pore volume of 0.34 cm³/g for the fresh Mo–Co–Ni-supported catalyst indicate a good accessibility to the catalytic centers for the HDS reaction. The acid strength distribution of the fresh and spent catalysts, as well as for the support, was determined by thermal desorption of diethylamine (DEA) with increase in temperature from 20 to 600 °C. The weak acid centers are obtained within a temperature range between 160 and 300 °C, followed by medium acid sites up to 440 °C. The strong acid centers are revealed above 440 °C. We found a higher content of weak acid centers for fresh and spent catalysts as well as alumina as compared to medium and strong acid sites. The catalyst stability in terms of conversion as a function of time on stream in a fixed bed flow reactor was examined and almost no loss in the catalyst activity was observed. Consequently, this fact demonstrated superior activity of the Mo–Co–Ni-based catalyst for TH HDS. The activity tests by varying the temperature from 200 to 275 °C and pressure from 30 to 60 bar with various space velocities of 1–4 h^?1 were investigated. A Langmuir–Hinshelwood model was used to analyze the kinetic data and to derive activation energy and adsorption parameters for TH HDS. The effect of temperature, pressure, and liquid hourly space velocity on the TH HDS activity was studied.     

Role of single-site catalysts in the hydrogenation of thiophenes: from models systems to effective HDS catalysts

The hydrogenation of thiophenes, leading to cyclic thioethers, thiols or hydrocarbons and H₂S, can be achieved by single-site metal catalysts in both homogeneous and heterogeneous phase. An overview of the processes that have provided useful mechanistic information on hydrodesulfurization catalysis, is presented and commented.     

Thiophene hydrodesulfurization activity of alumina supported heteropoly compounds: nickel effect

Summary Hydrotreating nickel tungsten catalysts have been prepared by impregnation of g-alumina with solutions of H₃PW₁₂O₄₀ acid and its Ni salt. It is shown that the initial heteropolyanion, its lacunar analog, nickel substituted heteropolyanion and other new formed phases are present on the surface. The thiophene conversion is related to the presence of mixed NiWS phase and to the close cooperation between WS₂ and NiS_x phases.     

MgF2 as a non-conventional catalyst support

This review reports progress in the study of the surface structure of MgF₂ and its use as a support of catalytically active phases. Magnesium fluoride was applied first as a support in catalysis for systems containing individual oxides of transition metals (Mo, V, W, Cu, Cr) and then two different oxide phases (Cu-Cr, Cu-Mn), a metal phase (Ru, Pd) or heteropolyacids. Its use as a support enabled determination of the structure and surface properties of these catalysts. The MgF₂-supported catalysts are characterized by high activity and selectivity in such processes as: hydrodechlorination of chlorofluorocarbons (CFCs), hydrodesulfurization of organic compounds and purification of fuel combustion products from nitrogen oxides. Magnesium fluoride has been also used in MgF₂-doped chromium or aluminum fluoride catalysts for Cl/F exchange on hydrochlorocarbons.     

ZnO基复合载体负载Ni催化剂催化噻吩加氢脱硫

用固相燃烧法制备了ZnO-A l2O3、ZnO-ZrO2、ZnO-TiO2三种复合氧化物载体,采用浸渍法制备了复合氧化物负载的镍催化剂,并考察其对噻吩加氢脱硫反应的催化性能。采用BET、NH3吸附红外光谱(IR)、程序升温脱附(TPD)、程序升温还原(TPR)、X射线衍射(XRD)等技术对催化剂进行表征。研     

Hydroprocessing catalysts based on transition metal sulfides prepared from Anderson and dimeric Co2Mo10-heteropolyanions. A review

Hydroprocessing catalysts based on transition metal sulfides have been extensively used worldwide in refineries for upgrading heavy fractions to better quality fuels. The present work reviews the studies dealing with Anderson heteropolyanions (HPAs) and the derived dimeric structure for synthesizing hydrotreating catalysts. The development of new preparation methods based on HPA catalysts led to efficient catalytic systems due to better sulfidation allowed by a better dispersion of the oxidic precursor even at high metallic loadings. The increase of the Co/Mo ratio in the heteropolycompounds up to 0.5 was possible due to the formation of dimer cobalt salt. The association of Co and Mo at the molecular level in the same heteropolycompound preserved after the drying step during the catalyst preparation ensured the efficiency of the promoting effect with a higher quantity of the CoMoS active phase. This HPA-based system was further improved by the simultaneous use of HPAs and chelating agents.