Ce_xTi_(1-x)O_2 Mixed Oxides Supported CuO Catalyst for NO Reduction by CO

Ce x Ti 1- x O 2 mixed oxides of different mole ratios ( x =0, 0.1, 0.2～0.9, 1.0) were prepared by co precipitation of TiCl 4 with Ce(NO 3) 3 and then loaded with different amounts of CuO. The effects of CuO on NO+CO reaction were investigated, and the structure and reductive properties of various CuO/Ce x Ti 1- x O 2 were characterized by the methodologies of BET, TPR and XRD. The results show that different Ce/Ti mole ratios and calcination temperatures induce changes of structure and reductive properties of the Ce x Ti 1- x O 2 mixed oxides. When x =0.1～0.5, amorphous CeTi 2O 6 phase mainly forms at 650 ℃ compared to the formation of CeTi 2O 6 which crystallizes at 800 ℃. When x >0.6, some TiO 2 enters the CeO 2 lattice and a CeO 2 TiO 2 solid solution is formed. The activity of 6%CuO/Ce x Ti 1- x O 2 calcined at 650 ℃ is largely affected by the x values, which is the highest when x =0.3, 0.4 and 0.9. The NO conversion reaches 70% at a reaction temperature of 150 ℃. By comparison, the x values have little effect on the activity of 6%CuO/Ce x Ti 1- x O 2 calcined at 800 ℃ . There are strong interactions between CuO and CeTi 2O 6, i.e., formation of the CeTi 2O 6 phase shifts the CuO reduction peak temperature from 380 to 200 ℃, and CuO, in turn, shifts the CeTi 2O 6 reduction peak temperature from 600 to 300 ℃.

Plasma treated M1 MoVNbTeO_(x)-CeO_(2) composite catalyst for improved performance of oxidative dehydrogenation of ethane

High activity and productivity of MoVNbTeO_(x) catalyst are challenging tasks in oxidative dehydrogenation of ethane(ODHE)for industrial application.In this work,phase-pure M1 with 30 wt%CeO_(2) composite catalyst was treated by oxygen plasma to further enhance catalyst performance.The results show that the oxygen vacancies generated by the solid-state redox reaction between M1 and CeO_(2) capture active oxygen species in gas and transform V^(4+)to V^(5+)without damage to M1 structure.The space-time yield of ethylene of the plasma-treated catalyst was significantly increased,in which the catalyst shows an enhancement near~100% than that of phase-pure M1 at 400℃ for ODHE process.Plasma treatment for catalysts demonstrates an effective way to convert electrical energy into chemical energy in catalyst materials.Energy conversion is achieved by using the catalyst as a medium.

Fe-Mn-CeO_(x)/AC@CNTs催化剂低温同时去除NO和氯苯

以活性炭@碳纳米管(AC@CNTs)为载体,通过浸渍法制备了Mn-CeO_(x)/AC@CNTs催化剂,并考察了铁物种的引入对Mn-CeO_(x)/AC@CNTs催化剂同时去除NO和氯苯(CB)活性的影响。利用SEM、XRD、Raman、FTIR、XPS、H_(2)-TPR对催化剂的理化性质进行了表征。结果表明,Mn物种进入CeO_(2)的晶格中形成Mn-Ce固溶体促进氧空位的生成,而催化剂表面存在丰富的C—H基团和含氧基团有利于提高催化剂的低温催化活性。与Mn-CeO_(x)(1:7)/AC@CNTs[n(Mn):n(Ce)=1:7]催化剂相比,Fe-Mn-CeO_(x)(1:7)/AC@CNTs催化剂表面吸附氧的含量和酸位点数量显著增加,使其具有良好的氧化还原性能和表面酸性。Fe-Mn-CeO_(x)(1:7)/AC@CNTs催化剂在整个温度窗口表现出最高的催化活性,其中,在225~300℃范围内,NO转化率达到90%以上,300℃时,CB转化率达90%。此外,当CB存在时,300℃时,Fe-Mn-CeO_(x)(1:7)/AC@CNTs催化剂的NO转化率仍能达到95%。

Catalytic hydrogenolysis of organosolv lignin: Cleaving C–O bonds over CuMgAlO_(x)-layered porous metal oxide catalysts for oriented monophenols production

To understand the catalytic conversion of lignin into high-value products,lignin depolymerization was performed using a layered polymetallic oxide(CuMgAlO_(x))catalyst.The effects of the conversion temperature,hydrogen pressure,and reaction time were studied,and the ability of CuMgAlO_(x)to break the C–O bond was evaluated.The CuMgAlO_(x)(Mg/Al=3:1)catalyst contained acidic sites and had a relatively homogeneous elemental distribution with a high pore size and specific surface area.Theβ-O-4 was almost completely converted by disassociating the C–O bond,resulting in yields of 14.74%ethylbenzene,47.58%α-methylphenyl ethanol,and 36.43%phenol.The highest yield of lignin-derived monophenols was 85.16%under reaction conditions of 280℃ and 3 Mpa for 4 h.As the reaction progressed,depolymerization and condensation reactions occurred simultaneously.Higher temperatures(>280℃)and pressures(>3 Mpa)tended to produce solid char.This study establishes guidelines for the high-value application of industrial lignin in the catalytic conversion of polymetallic oxides.

Pt Supported on Plasma-Chemical Titanium Nitride for Efficient Room-Temperature CO Oxidation

Catalysts of carbon monoxide oxidation were synthesized by deposition of platinum on titanium nitride (TiN). Two substrates with an average particle size of 18 and 36 nm were obtained by hydrogen reduction of titanium tetrachloride in a stream of microwave plasma of nitrogen. The surface of the catalysts was studied by X-ray photoelectron spectroscopy (XPS). The data obtained by us in the present work indicate the presence of oxynitride as a transition layer between nitride and oxide. It was found that the CO oxidation rate on the 9 - 15 wt.% Pt loaded TiN catalysts is 120 times higher than that on the platinum black with a specific surface of 30 m2/g. Increase in the reaction rate of CO oxidation on Pt/TiN catalysts as compared to platinum black can be associated with both an increase in the concentration of CO molecules adsorbed and a decrease in the activation energy of the reaction. Catalysts are promising for use in catalytic air purification systems.

2D Ca/Nb-based perovskite oxide with Ta doping as highly efficient H_(2)O_(2)synthesis catalyst

Perovskite oxides(POs)are emerging as a class of highly efficient catalysts for reducing oxygen to H_(2)O.Although a rich variety of POs-based catalysts have been developed by tuning the complex composition,a highly efficient PO catalyst that is able to alter the reaction pathway from a 4e−process to a 2e−process for H_(2)O_(2)production has rarely been achieved.We modified the structure and composition of a Ca-and Nb-based PO material by realizing a uniform two-dimensional(2D)morphology and varied Ta doping,resulting in the 2D Ca_(2)Nb_(3−x)Ta_(x)O_(10)−(x=0,0.5,1,and 1.5)monolayer catalysts.The obtained catalysts exhibit a dominant 2e−pathway and show exceptional H_(2)O_(2)production efficiency.The typical Ca_(2)Nb_(2.5)Ta_(0.5)O_(10)−nanoflakes showed an onset potential of 0.735 V vs.reversible hydrogen electrode(RHE),a remarkably high selectivity over 95%across a wide range of 0.3-0.7 V,an impressively high Faradaic efficiency of 94%,and a notable H_(2)O_(2)productivity of 1571 mmol·gcat^(−1)·h^(−1).These findings highlight the great potential of 2D perovskite oxide nanoflakes as advanced electrocatalysts for 2e−oxygen reduction reaction.

球团生产烟气中NO_(x)的治理技术与实践

介绍了淄博铁鹰球团制造有限公司链篦机-回转窑球团工艺NO_(x)治理技术措施和生产实践。根据链篦机-回转窑NO_(x)的产生特点和排放量,通过市场调研、实地考察、技术分析及方案论证,选用了SCR-SNCR联合脱硝技术,实施了链篦机分段及其烟道结构创新改造。提高了烟气中NO_(x)收集率,实现了稳定达标排放;还原剂实际消耗量较设计值下降约15%,降低了脱硝运行成本。

Co助剂对稀燃NO_x阱Pt/Ba-Al-O结构和性能的影响

采用共沉淀 浸渍法制备了Pt/Co Ba Al O催化剂 ,用X射线衍射、X射线吸收近边结构和扩展X射线吸收精细结构等手段表征了催化剂的微观结构 ,并在连续流动微型反应器上测定了催化剂对NOx 的储存性能 .载体经过 80 0℃焙烧后 ,Co物种主要以四面体配位的铝酸钴相存在 .在富氧条件下 ,高分散的小颗粒铝酸钴相促进了NO向NO2 的转化 ,大大改善了催化剂对NOx 的储存性能 .铂物种则以小的金属原子簇形式存在 ,分散度很高 .钴助剂的添加改善了氧化铝相的分散度 ,抑制了金属铂原子簇与载体的相互作用 ,使铂在催化剂表面分散得更均匀 ,从而有利于NOx

Cu_xCe_(1-x)O_(2-x)/SBA-15/堇青石整体式催化剂及其CO催化氧化性能

以堇青石蜂窝陶瓷为载体，CuxCe1-xO2-X/SBA-15为催化活性组分，制备了一系列10％～60％Cu0.5Ce0.5O1.5/SBA-15／堇青石和50％CuxCe1-xO2-x/SBA-15／堇青石（x=0~1）整体式催化剂，采用低温氮吸附-脱附、XRD、XPS和H2-TPR对催化剂进行了表征，在微型固定床反应器中评价了催化剂的CO催化氧化活性。结果表明：整体式催化剂仍然保持SBA-15的介孔结构,催化剂中除了堇青石的物相外，还有CuO和CeO2物相，催化剂表面的Cu以Cu^2＋和Cu^＋两种状态存在，Ce以Ce^4＋状态存在,催化剂表面的氧化还原性能与Cu0.5Ce0.5O1.5的含量和Cu、Ce的比例有一定的关系，50％Cu0.5Ce0.5O1.5/SBA-15／堇青石催化剂具有最好催化活性，CO可以在140℃完全转化。

Ce_xTi_(1-x)O_2复合氧化物的结构及负载CuO对NO还原性能研究

采用共沉淀法制备了不同摩尔比(x=0,0.1,0.2～0.9,1.0)的CexTi1-xO2复合氧化物,考察了CuO/CexTi1-xO2对NO+CO反应的活性,并用BET,TPR和XRD等技术对各试样进行了表征。结果表明,试样的结构和还原特性随焙烧温度变化而变化。XRD检测表明,x值从0.1增加到0.5时,650℃焙烧的试样已形成了CeTi2O6物相,且主要以无定形状态存在;试样经800℃焙烧后晶化完全;x>0.6时,一些TiO2已经进入了CeO2晶格,形成了Ce Ti固溶体。催化剂活性评价表明CuO/CexTi1-xO2(650℃)对NO+CO反应具有较好的活性,其活性随x值变化而变化。TPR及XRD结果表明CuO与CeTi2O6之间存在很强的相互作用,CeTi2O6物相的形成使CuO的还原峰温由380℃提前到200℃,而CuO的存在又促进CeTi2O6的还原峰温从600℃提前至200～300℃。

原位X射线衍射研究VO_x和MoO_x在Al_2O_3上的分散

采用原位X射线衍射技术考察了机械研磨法和浸渍法制备的负载型VOx（MoOx）/Al2O3催化剂在空气中升温时的晶相变化. 结果表明,采用草酸络合浸渍法制备的VOx/Al2O3催化剂上前驱体（NH4）2[VO（C2O4）2]分散均匀,在升温至200～300 ℃时前驱体开始分解, 300～400 ℃是主要分解区间,到400 ℃时分解完全;VOx物种是通过晶相HxV2O5进行分散的. 机械研磨法制备的VOx/Al2O3催化剂在升温过程中虽然VOx与Al2O3之间存在相互作用,但并没有观察到明显的自发分散现象, V2O5一直以晶体氧化物形式存在. 在空气中升温至400 ℃时,浸渍法制备的MoOx/Al2O3催化剂上（NH4）6Mo2O24·4H2O已完全分解成MoO3. 机械研磨法制备的MoOx/Al2O3在加热过程中分解生成的MoO3与浸渍法得到的MoO3不完全相同,主要体现在（040）和（060）晶面的含量不同;机械研磨法制得的催化剂在500 ℃下焙烧1 h的分散度小于浸渍法制备的催化剂.

Ce_xPr_(1-x)O_(2-δ)复合氧化物的制备、表征及CO和CH_4氧化性能研究

采用溶胶-凝胶法制备了CexPr1-xO2-δ复合氧化物,用XRD和Raman光谱对复合氧化物的体相和表面结构进行了表征.结果表明,当x≥0.5时Pr离子完全进入CeO2晶格中形成单一立方相固溶体. CexPr1-xO2-δ(x>0.3)复合氧化物在465和1150cm-1附近出现具有CaF2结构的Raman特征峰,和由氧空穴引起的不对称振动产生的570和195cm-1 Raman 谱峰.固溶体的形成使还原温度降低,提高了复合氧化物的还原性能.CO氧化活性表明氧空穴的存在对CO氧化活性有一定的对应关系;而CH4氧化活性则与还原温度和强度有关.

Si-Al催化剂对碳烟氧化特性影响的XPS分析

为揭示Si-Al催化剂对碳烟氧化特性的影响作用,对碳烟及其部分被氧化碳烟的表面结构特征进行X射线光电子能谱(XPS)分析,了解碳、氧元素的表面结构中的存在形态及其差异。以商业碳黑(PU)代替实际的柴油机碳烟,碳烟中不加入催化剂,随着氧化温度的上升,碳烟微观结构的晶格化程度越来越深。加入催化剂后,650℃下碳烟的氧化特性与不加催化剂的相似,微观结构呈现较多的晶格结构。1 000℃下碳烟的微观结构中呈现出较多的无序的无定型结构。可知:Si-Al催化剂改变了碳烟在氧气气氛下的氧化机理;1 000℃下催化剂的加入,会促进难以氧化的晶格结构的氧化。

助催化剂对Fe_(1-x)O基费-托合成催化剂性能的影响

考察了助催化剂对Fe（1-x）O基合成熔铁催化剂反应性能的影响，并通过XRD和TPD对催化剂进行表征。结果表明，MnO可以使产物中甲烷选择性降低，低碳烯烃的选择性增加，（CO＋H2）转化率下降。稀土氧化物M2O3（M=La、Nd、Pu等）的加入，产物中甲烷的选择性降低，低碳烯烃的选择性增加，C5^＋选择性增加。对于熔铁催化剂，较少量M2O3（质量分数为0．5％～1．0％）的加入可以使甲烷选择性由21．1％降到14．84％，低碳烯烃收率由31．20g·m^-3升高到40．91g·m^3，C5^＋收率由45．52g·m^-3升高到59．61g·m^-3，但是较多量M2O3（质量分数为1．5％）的加入，（CO＋H2）转化率大幅下降，（CO＋H2）转化率仅为30．29％。XRD结果表明，加入MnO，Mn2^＋部分取代了较大离子半径的Fe^2＋的位置，晶胞参数变大；M2O3的加入，形成了新的晶相。TPD结果表明，低温脱附峰的面积在添加MnO或M22O3后明显减少，催化剂表面活性中心数目减少。

Ln_2O_3/X-13分子筛作酯化反应催化剂的研究

用浸渍-焙烧法制备的Ln2O3／X－13分子筛（Ln＝Nd、Sm、Tm、Lu、Eu、Dy），其稀土氧化物含量为0．83％～0．93％，该分子筛对芳香酸、脂肪酸与醇的酯化反应有明显的催化作用．芳香酸酯化反应转化率以合成邻苯二甲酸二辛酯（DOP）为例，它比无催化剂的转化率提高10％左右，比X－13分子筛的催化转化率提高8％左右；脂肪酸酯化反应转化率以合成棕酸辛酯（IOP）为例，它比无催化剂的转化率提高7％左右，比X－13分子筛的催化转化率提高4％左右．而且，Ln2O3／X－13分子筛与Ln2O3／Al2O3型酯化反应催化剂相比，其稀上用量下降25％左右．酯化反应温度下降10℃左右．上述结果表明．Ln2O3／X－13分子筛是一种优良的酯化反应催化剂。

催化臭氧氧化活性艳红X-3B水溶液中催化剂的研制

以金属Ni、Co为活性组分、γ-Al2O3为载体,用浸渍法制备催化剂催化臭氧氧化法处理活性艳红X-3B废水,并通过XRD,SEM等检测手段进行表征。考察了浸渍时间、Ni占负载活性组分的摩尔比、焙烧温度和焙烧时间对催化活性的影响。结果表明:浸渍时间为8.5小时、镍占负载活性组分的摩尔比为0.67、焙烧温度为300℃、焙烧时间为5小时时制备的催化剂效果最佳。

ZnCrDyK和ZnCrTbK合成低碳醇催化剂的XPS表征

ＺｎＣｒＤｙＫ和ＺｎＣｒＴｂＫ合成低碳醇催化剂的ＸＰＳ表征安炜，牛玉琴，陈正华（中国科学院山西煤炭化学研究所，太原０３０００１）关键词稀土元素，Ｚｎ－Ｃｒ氧化物催化剂，低碳醇，Ｘ射线光电子能谱近年来，稀土氧化物（ＲＥＯ，ＲＥ表示稀土元素）作为助剂或载...

一氧化碳在高温超导体型的Ba_(2-x)Sr_xYCu_3O_(7-α)上的催化氧化

用粉末XRD法、EXAFS法,激光喇曼散射法、热重法和高真空质谱TPD法研究了超导体型氧化还原催化剂Ba_(2-x)Sr_xYCu_3O_(7-α)(x=0,0.25,0.50,0.75,1.00)的物理化学性质,并用常压连续流动法测定了它们的CO催化氧化活性,得到了催化剂氧化反应活性大小与催化剂的可失氧量(即晶胞中O_I 位置上的氧量)之间存在着线性关系的结论.

EXAFS用于Ru置换的固-液相醇氧化催化剂的研究

对Ru置换的有效的固 液相醇氧化催化剂Ru hydrotalcite、Ru Co Ce CO3和Ru spinels进行了EXAFS的对比研究 ,发现催化剂的活性组分均为单核的Ru。对比属于Ru hydrotalcite类的两种催化剂Mg Al Ru CO3和Co Al Ru CO3,EXAFS的表征证实 ,后者由于Co替代Mg ,Ru的氧化态升高 ,实验证实它的催化活性增加。对比属于Ru spinel类的MnFe1 95Ru0 0 5O4 和MnFe1 8Cu0 1 5Ru0 0 5O4 催化剂 ,发现部分Cu替代Fe导致后者的催化活性增加 ,EXAFS也证实其中Ru的氧化态升高。而Ru Co Ce CO3催化剂具有高的醇氧化活性的原因也是由于Ru的氧化态较高。由此可以证实 ,在这类Ru改性的催化剂中 ,RuO是反应的活性位 。

Na_(2)WO_(4)-Mn_(x)O_(y)/BaTiO_(3)催化剂的制备及其在甲烷氧化偶联反应中的应用

采用浸渍法制备了Na_(2)WO4-Mn_(x)O_(y)/BaTiO_(3)催化剂,研究了Na_(2)WO_(4)-Mn_(x)O_(y)/BaTiO_(3)催化剂对甲烷氧化偶联反应(OCM)的影响,利用SEM,XRD,EDS等分析方法对催化剂进行表征,并与Na_(2)WO_(4)-Mn_(x)O_(y)/SiO_(2)催化剂进行对比。实验结果表明,Na_(2)WO_(4)-Mn_(x)O_(y)/BaTiO_(3)催化剂的活性组分W和Mn在钛酸钡表面分布均匀,且反应过程中催化剂的结构基本保持不变,在反+应温度为800℃、甲烷与氧气摩尔比为1.5时,Na_(2)WO_(4)-Mn_(x)O_(y)/BaTiO_(3)催化剂催化OCM反应的C_(2)收率约为19%,C_(2)^(+)收率约为21%。与Na_(2)WO_(4)-Mn_(x)O_(y)/SiO_(2)催化剂相比,Na_(2)WO_(4)-Mn_(x)O_(y)/BaTiO_(3)催化剂的反应起活温度低60℃,具有更加活泼的活性氧位,能够在更低的温度条件下开始OCM反应。