Synthesis and Performance of Mesoporous Phosphotungstic Acid/Alumina Composite as a Novel Oxidative Desulfurization Catalyst

A series of mesoporous phosphotungstic acid/alumina composites （HPW/Al_2O_3） with various HPW contents were synthesized by evaporation-induced self-assembly method. These composites were characterized by nitrogen adsorption-desorption, TEM, FTIR, and UV-vis, and were tested as catalysts in oxidation desulfurization of model fuel composed of dibenzothiophene （DBT） and hydrocarbon, using H202 as the oxidant. These composites exhibited high activity in catalytic oxidation of DBT in model fuel and good reusing ability. The best performance was achieved by using the mesoporous HPW/Al_2O_3 with 15wt% HPW content, which resulted in a DBT conversion of 98% after 2 h reaction at 343 K, and it did not show significant activity degradation after 3 recycles. Characterization results showed that the mesoporous structure of alumina and the Keggin structure of HPW were preserved in the formed composite. These results suggested that HPW/ Al_2O_3 could be a promising catalyst in oxidative desulfurization process.

Effects of carrier and Mn loading on supported manganese oxide catalysts for catalytic combustion of methane

Supported manganese oxide catalysts were prepared by incipient wetness impregnation method for methane catalytic combustion, and effects of the support （Al2O3, SiO2 and TiO2） and Mn loading were investigated. These catalysts were characterized with N2 adsorption, X-ray diffraction, X-ray photoelectron spectroscopy and temperature-programmed reduction techniques. Methane conversion varied in a large range depending on supports or Mn loading. Al2O3 supported 15% Mn catalyst exhibited better activity toward methane catalytic oxidation. The manganese state and oxygen species played an important role in the catalytic performance,

Roles of Ceria on Base Metal Oxide Catalysts——NO+CO Reaction

A microreactor system was used to study the catalytic reaction of NO+CO→1/2 N_2+CO_2 over Cu,Fe, Mn,Cr,and Ce oxides supported on alumina,and the effect of adding Ce in supported Cu-M-O(M=Mn,Fe and Cr) catalysts on their catalytic activities for the topic reaction and the concentration of N_2O produced.It was found that the catalytic activity order of the single-element oxide is:CuO>Fe_2O_3≈Cr_2O_3> MnO_2>CeO_2>NiO.Cu-Mn-O is more active than CuO,and Cu-Fe-O is more active than Cu-Mn-O and Cu-Cr-O for NO+CO reaction.This study shows that the addition of Ce in supported Cu-M-O can promote their catalytic activities Jot the topic reaction,which makes the reaction of 2NO+CO→N_2O+CO_2 fast,and N_2O is an intermediate compound produced during NO+CO reaction.

Bimetallic CoNi single atoms supported on three-dimensionally ordered mesoporous chromia:highly active catalysts for n-hexane combustion

Developing the alternative supported noble metal catalysts with low cost,high catalytic efficiency,and good resistance toward carbon dioxide and water vapor is critically demanded for the oxidative removal of volatile organic compounds(VOCs).In this work,we prepared the mesoporous chromia-supported bimetallic Co and Ni single-atom(Co_(1)Ni_(1)/meso-Cr_(2)O_(3))and bimetallic Co and Ni nanoparticle(Co_(NP)Ni_(NP)/mesoCr_(2)O_(3))catalysts adopting the one-pot polyvinyl pyrrolidone(PVP)-and polyvinyl alcohol(PVA)-protecting approaches,respectively.The results indicate that the Co_(1)Ni_(1)/meso-Cr_(2)O_(3)catalyst exhibited the best catalytic activity for n-hexane(C_(6)H_(14))combustion(T_(50%)and T_(90%)were 239 and 263℃ at a space velocity of 40,000 mL g^(-1)h^(-1);apparent activation energy and specific reaction rate at 260℃ were 54.7 kJ mol^(-1)and 4.3×10^(-7)mol g^(-1)_(cat)s^(-1),respectively),which was associated with its higher(Cr^(5+)+Cr^(6+))amount,large n-hexane adsorption capacity,and good lattice oxygen mobility that could enhance the deep oxidation of n-hexane,in which Ni_(1) was beneficial for the enhancements in surface lattice oxygen mobility and low-temperature reducibility,while Co_(1) preferred to generate higher contents of the high-valence states of chromium and surface oxygen species as well as adsorption and activation of n-hexane.n-Hexane combustion takes place via the Mars van Krevelen(MvK)mechanism,and its reaction pathways are as follows:n-hexane→olefins or 3-hexyl hydroperoxide→3-hexanone,2-hexanone or 2,5-dimethyltetrahydrofuran→2-methyloxirane or 2-ethyl-oxetane→acrylic acid→CO_x→CO_(2)and H_(2)O.

Promotion effects of nickel-doped Al2O3-nanosheet-supported Au catalysts for CO oxidation

Supported gold catalysts show high activity toward CO oxidation, and the nature of the support significantly affects the catalytic activity. Herein, serial Ni doping of thin porous Al2 O3 nanosheets was performed via a precipitation-hydrothermal method by varying the amount of Ni during the precipitation step. The prepared nanosheets were subsequently used as supports for the deposition of Au nanoparticles(NPs). The obtained Au/Nix Al catalysts were studied in the context of CO oxidation to determine the effect of Ni doping on the supports. Enhanced catalytic performances were obtained for the Au/Nix Al catalysts compared with those of the Au supported on bare Al2 O3. The Ni content and pretreatment atmosphere were both shown to influence the catalytic activity. Pretreatment under a reducing atmosphere was beneficial for improving catalytic activity. The highest activity was observed for the catalysts with a Ni/Al molar ratio of 0.05, achieving complete CO conversion at 20 °C with a gold loading of 1 wt%. The in-situ FTIR results showed that the introduction of Ni strengthened CO adsorption on the Au NPs. The H2-TPR and O2-TPD results indicated that the introduction of Ni produced new oxygen vacancies and allowed the oxygen molecules to be adsorbed and activated more easily. The improved catalytic performance after doping Ni was attributed to the smaller size of the Au NPs and more active oxygen species.

Complete Oxidation of Methane over Palladium Supported on Alumina Modified with Calcium,Lanthanum,and Cerium Ions

The activity and thermal stability of Pd/Al2O3 and Pd/（Al2O3＋MOx） （M=Ca, La, Ce） palladium catalysts in the reaction of complete oxidation of methane are presented in this study. The catalyst supports were prepared by sol-gel method and they were dried either conventionally or with supercritical carbon dioxide. Then they were impregnated with palladium nitrate solution. The catalysts with unmodified alumina had a high surface area. The activity and thermal stability of the aluminasupported catalyst was also very high. The introduction of calcium, lanthanum, or cerium oxide into alumina support caused a decrease of the surface area in the way dependent on the support precursor drying method. These modifiers decreased the activity of palladium catalysts, and they required higher temperatures for the complete oxidation of methane than unmodified Pd/Al2O3. The improvement of the palladium activity by lanthanum and cerium support modifier was observed only at low temperatures of the reaction.

Preparation and Water-Gas Shift Catalytic Activities of the Perovskite Type Complex Oxide La_(1-x) Ce_xFeO_3

The perovskite type rare earth iron complex (REIC) oxide La 1-x Ce xFeO 3 is designed and prepared as water gas shift catalyst. Activity evaluation and heat resisting test show that the perovskite type compounds La 1-x Ce xFeO 3(·K) has a good thermal stability if x is less than or equal to 0.5 . But when x is greater than 0.5 , La 1-x Ce xFeO 3(·K) will turn out to be ceria and magnetite partially or completely at high temperature in the shift reaction atmosphere. In the case of x=0.5, the conversion of carbon monoxide is about 68% at 530 ℃. Potassium can greatly improve the low temperature activity, but slightly lower the high temperature activity, and has little impact on the thermal stability. La 0.5 Ce 0.5 FeO 3 (·K) is a promising chromium free high temperature shift catalyst.

Mn/Cr_(2)O_(3)催化剂的甲苯催化氧化性能研究

为了解决挥发性有机化合物(VOCs)燃烧处理效率低的问题,通过水热合成法制备了Cr_(2)O_(3)纳米粒子,再以浸渍法负载Mn组分,得到系列Mn Cr_(2)O_(3)催化剂,表征了其物理化学性质,评价了其催化甲苯氧化反应的性能。结果表明:相较于Cr_(2)O_(3)催化剂,MnO_(x)的负载在诱导铬基载体产生有序介孔结构的同时,增大了催化剂的比表面积,有效提高了活性MnO_(x)的分散度,维持了Mn Cr_(2)O_(3)催化剂的结构稳定性,解决了活性组分易聚集失活的问题;当Mn质量分数为20%时,Mn Cr_(2)O_(3)催化剂展现出最高活性,甲苯转化率为50%,90%,100%时温度分别为210,229,240℃;同时,该催化剂在240℃、50 h的稳定性测试中,甲苯转化率能够保持在100%,这说明通过控制Mn组分的掺入量,能够有效调控系列Mn Cr_(2)O_(3)催化剂的孔道结构、金属-载体间的相互作用及抗积炭能力,以期进一步优化催化性能。

固体氧化物电池空气电极铬中毒机理及抗铬性能研究进展

固体氧化物电池(SOC)具有能源利用率高、污染排放量低、燃料灵活性高等优势,将在未来的能源供应和储存中发挥关键作用。当前,其长期稳定性尚不能满足大规模商业化的需求,电池堆中用于串联电池的金属连接体所导致的空气电极“铬中毒”是电堆性能衰减的重要因素之一。传统空气电极在发电模式(SOFC)下的铬中毒机理已较为明晰。然而,随着电解模式(SOEC)下应用的不断攀升,基于传统电极材料的毒化机理不适用于该运行模式下的电极体系。对典型空气电极材料在SOFC模式和SOEC模式下铬中毒机理进行对比分析,并且对提高SOC空气电极抗铬性能的研究进行总结和展望。

Fe-In复合氧化物催化剂的制备及其催化苯酚甲基化性能

通过共沉淀、老化、洗涤、干燥、焙烧、粉碎、成型等步骤制备一种Fe-In复合氧化物催化剂并用于催化苯酚气相烷基化制邻甲基苯酚。考察制备温度、终点pH值及活性组分物质的量比对催化剂晶相、孔结构及催化活性的影响。结果表明,当制备温度为55℃,终点pH值为约8.5,n(Fe)∶n(In)∶n(Cr)∶n(Al)=100∶2∶1∶1时,催化剂性能最佳,邻甲酚收率41.1%。采用该催化剂制备邻甲基苯酚,选择性高,且工艺过程简单,适宜连续化大规模生产。

Influence of Al_2O_3/CeZrAl composition on the catalytic behavior of Pd/Rh catalyst

Al2O3 and Ce-Zr mixed oxides are important components of the automobile three-way catalyst.Various contents modifying A12O3(GAL) was physically introduced into Ce-Zr-Al mixed oxides(CZA) to form series of GAL/CZA composition.The Pd/Rh catalyst samples were prepared by different GAL/CZA support loading Pd/Rh,then aged at 950 oC for 6 h.The catalytic behavior of different Pd/Rh catalyst samples was studied.Surface area,oxygen storage capacity(OSC) and H2 adsorption capacity(TPR) of fresh and aged samples were...

Copper-cobalt Bimetallic Oxides-doped Alumina Hollow Spheres: a Highly Efficient Catalyst for Epoxidation of Styrene

Copper-cobalt bimetallic oxides-doped alumina hollow spheres(CuCo/AHS)were labricatcd through the sacrificial carbonaceous template strategy.The dependence of the physicochemical properties and morphologies of CuCo/AHS on the composition of copper and cobalt in CuxCoy/AHS(x/y=9/1,7/3,5/5,and 3/7)was characterized bv means of X-ray powder diffraction,nitrogen physisorption,atomic adsorption spectroscopy,scanning electron microscopy,transmission electron microscopy and X-ray photoelectron spectroscopy.Among these catalysts, Cu7-Co3/AHS catalyst exhibited perfect hollow sphere structure,thin wall,and big pore size.The calcined catalysts were examined for the epoxidation of styrene with tert-butyl hydroperoxide as oxidant.Compared with the monometallic counterparts(Cu/AHS and Co/AHS)and other CuxCoy/AHS catalysts,Cu7Co3/AHS catalyst showed higher performance,yielding a styrene conversion of 64.6% with 93.0% selectivity toward styrene oxide.In addition,the strong interaction of Cu^2+or Co^2+ with AHS ensured good stability after four consecutive reactions.

Additive effects of alkaline-earth metals and nickel on the performance of Co/γ-Al_2O_3 in methane catalytic partial oxidation

Nano-sized γ-alumina （γ-Al2O3） was first prepared by a precipitation method. Then, active component of cobalt and a series of alkaline- earth metal promoters or nickel （Ni） with different contents were loaded on the γ-Al2O3 support. The catalysts were characterized by N2 adsorption-desorption, X-ray diffraction （XRD） and thermogravimetry analysis （TGA）. The activity and selectivity of the catalysts in catalytic partial oxidation （CPO） of methane have been compared with Co/γ-Al2O3, and it is found that the catalytic activity, selectivity, and stability are enhanced by the addition of alkaline-earth metals and nickel. The optimal loadings of strontium （Sr） and Ni were 6 and 4 wt%, respectively. This finding will be helpful in designing the trimetallic Co-Ni-Sr/γ-Al2O3 catalysts with high performance in CPO of methane

锆改性氧化铝负载的纳米金催化剂上环己烷氧化研究

通过浸渍法制备氧化锆改性的氧化铝载体,并采用改进的阴离子交换法(DAE)制备了负载型纳米金催化剂。以分子氧为氧化剂,考察了金催化剂在环己烷选择性氧化制环己酮和环己醇反应中的催化性能。结果表明,提高锆含量,环己烷转化率保持稳定,环己酮和环己醇总选择性,尤其是环己酮的选择性明显提高。随着金负载量增加,金颗粒增大,催化剂的活性降低,金颗粒在6nm以下的催化剂具有很高的催化活性。在423K、1.5MPa、3h反应条件下,0.6%(wt)金和17%(wt)锆含量的催化剂上环己烷氧化得到9.5%的转化率,环己酮和环己醇的选择性分别为38.8%和51.5%。

甲烷部分氧化制合成气载体及助剂对Ni系催化剂活性的影响

采用浸渍法制备了Ni系催化剂 ,并用程序升温还原和X射线衍射技术对催化剂进行了表征 ,用固定床微反装置考察了催化剂的催化活性 .活性考察结果表明 ,在Ni担载量为 8%的Ni/γ Al2 O3,Ni/δ Al2 O3,Ni/θ Al2 O3和Ni/α Al2 O3四种催化剂上 ,甲烷部分氧化制合成气反应的活性及产物选择性存在着明显的差异 .在 770℃下 ,甲烷转化率及CO和H2 的选择性按Ni/γ Al2 O3<Ni/δ Al2 O3<Ni/θ Al2 O3≈Ni/α Al2 O3顺序排列 .在相同的条件下 ,加入适量的CeO2 助剂后 ,Ni/γ Al2 O3和Ni/δ Al2 O3上的反应活性和选择性显著提高 ,而Ni/θ Al2 O3和Ni/α Al2 O3上的活性和选择性却变化不大 .同时 ,表征结果显示 ,Ni易与γ Al2 O3形成镍铝尖晶石NiAl2 O4,加入CeO2 助剂能有效地抑制该组分的生成 ,而Ni/α Al2 O3样品中未发现NiAl2 O4.因此 ,不同Ni/Al2 O3催化剂体系上的反应活性及选择性的差异可归结为不同结构Al2 O3载体的性质不同 ,及CeO2 对抑制镍铝尖晶石生成的效果不同 .

微波诱导Fe_2O_3/Al_2O_3催化剂催化氧化处理水中苯酚

以γ-Al_2O_3为载体,采用浸渍焙烧法制备了Fe_2O_3/Al_2O_3催化剂,并将其应用于微波诱导催化氧化处理模拟含酚废水.X射线衍射和X射线荧光光谱测试结果表明,活性组分氧化铁在催化剂中以α-Fe_2O_3的形式存在,其含量为3.71%.与载体氧化铝相比,Fe_2O_3/Al_2O_3催化剂的比表面积和平均孔径及平均孔容略有降低.对于100mg/L的模拟含酚废水,最佳的处理工艺条件为微波辐照功率400W,辐照时间5min,催化剂加入量60g/L,H_2O_2浓度600mg/L,体系pH>4.在此工艺条件下,水中苯酚的去除率达97.98%.催化剂连续使用20次后苯酚去除率仍达96.34%.表观反应动力学研究表明,在氧化铁催化剂存在的条件下,微波诱导H2O2产生氧化性极强的羟基自由基,整个反应过程可分为微波诱导阶段和催化氧化阶段,两个阶段的氧化过程均符合一级反应动力学规律.

Ni/Al_2O_3和Ni/La_2O_3催化剂上低温乙醇水蒸气重整制氢

采用浸渍、热分解和氢还原等步骤制备了两种纳米晶载体催化剂Ni/Al2 O3 和Ni/La2 O3 ,应用X射线衍射、X射线光电子能谱、N2 吸附和扫描电镜对催化剂的体相和表面结构进行了测定 ,采用固定床反应器考察了催化剂对乙醇水蒸气重整制氢反应的催化性能 .实验结果表明 ,1 5 3%Ni/La2 O3 催化剂对乙醇的低温水蒸气重整反应表现出较高的催化活性和稳定性 .2 5 0℃时乙醇的转化率已达到 80 7% ,氢气的选择性为 4 9 5 % ;330℃时乙醇的转化率达到 1 0 0 % ,氢气的选择性可达5 4 3% .1 6 1 %Ni/Al2 O3

Ni／Al_2O_3催化剂上甲烷部分氧化制合成气

本文研究了Ｎｉ／Ａｌ２Ｏ３催化剂的表面特征及其与ＣＨ４部分氧化制合成气反应性能的关系．ＴＰＲ，ＸＲＤ和评价结果表明，催化剂Ｎｉ组分含量为９．０％时反应性能最佳．反应过程中催化剂表面上总有部分镍氧化物在５２０～５４０℃就被还原．反应条件实验表明：在１１．５２×１０５ｍｌ·ｇ－１·ｈ－１下，随着反应管外控制温度的升高，ＣＨ４转化率、ＣＯ和Ｈ２选择性及收率增加；在７００℃下，随着原料气空速的增加，ＣＨ４转化率、ＣＯ和Ｈ２收率增加，在１１．５２×１０５ｍｌ·ｇ－１·ｈ－１时达到最大值，但ＣＯ选择性只单调地增加．在非平衡条件下（极高的空速），甲烷部分氧化可能经历了与平衡条件下完全不同的反应途径，反应产物在很大程度上受反应过程的动力学因素控制，ＣＯ和Ｈ２是反应的初级产物，ＣＯ２是ＣＨ４。

Ni/La2O3/Al2O3催化剂上甲烷干重整积炭表征与分析(英文)

用传统的等体积浸渍法或蒸发法制备了Ni/La2O3/γ-Al2O3与Ni/La2O3/α-Al2O3催化剂,在没有稀释气体的条件下进行了甲烷干重整反应.采用H2程序升温还原、N2吸附脱附、X射线衍射、透射电子显微镜、热重-差示扫描热量以及程序升温加氢等手段对新鲜的与反应后的催化剂以及沉积的碳进行了表征.结果表明,催化剂上有四种含碳物种,以三种形态存在,即无定形碳(聚合态)、丝状碳或石墨碳.这些催化剂上积炭的数量与种类各不相同,依赖于催化剂中金属Ni颗粒的大小与载体的织构特性.丝状碳的形成及其形貌与金属Ni颗粒的大小有着密切的联系.Ni颗粒小于15nm时能抑制丝状碳的形成与沉积,减少积炭的数量,同时能产生较多的活性Cα物种,从而在一定程度上导致催化剂具有较好的活性与稳定性.