在铜铁、铜钴复合氧化物上利用CO低温催化还原NO

Copper iron composite oxides (CuO/Fe2O3) and copper cobalt composite oxides (CuO/Co3O4) for the catalytic reduction of NO with CO at low temperature were prepared by co-precipitation. The catalytic activity and thermal stability of the catalysts were evaluated by a microreactor-GC system. The 100% conversion temperatures of NO are 80 oC for CuO/Fe2O3 and 90 oC for CuO/Co3O4. The catalysts possess high catalytic activity and favorable thermal stability for NO reduction with CO in a wide temperature range and long time range. A systematic study of the molar ratios of the reactants, the volume of NaOH, aging time, and calcination temperature/time was carried out to investigate the influence preparation conditions on the catalytic activity of the catalysts.     

La-Ba-Cu复合氧化物在催化消除NO反应中催化性能的研究

合成了具有钙钛石结构的复合氧化物YBa₂Cu₃O₇、LaBa₂Cu₃O₇、LaBaCu₂O₅、La₂BaCu₃O₇和La₄BaCu₅O₁₂.考察了它们对NO分解和NO+CO反应的催化性能.结合化学分析、XRD、TPD和TPR对催化剂的表征结果,探讨了该系列复合氧化物对NO分解和NO+CO反应的催化机理.     

Pretreatment of Alumina and Its Influence on the Properties of Co/Alumina Catalysts for Fischer-Tropsch Synthesis

16.6%Co/γ-Al_2O_3 catalysts prepared by incipient wetness impregnation method were used for Fischer-Tropsch synthesis.The support was pre-treated with different concentration of NH_4NO_3 aqueous solution.The effect of support pre-treatment on the properties of support and performance of supported- cobalt-based catalysts was investigated.To treat the support with NH_4NO_3 aqueous solution enlarged the pore ofγ-Al_2O_3,decreased the impurity Na_2O content,and weakened the surface acidity ofγ-Al_2O_3. The change in the properties of the support decreased the interaction between cobalt species and support, enhanced the CO hydrogenation rate and the C_(5 )selectivity.For all catalysts,increasing the reaction temperature increased the CO hydrogenation rate or the CO conversion,slightly decreased the total hydrocarbon selectivity,and favored the formation of methane and light hydrocarbons,while the chain growth probability decreased.For 16.6%Co/γ-Al_2O3 catalysts,prepared with the support treated with 100 g/L NH_4NO3 aqueous solution,the CO conversion,the CH_4 selectivity,and the C_(5 )selectivity were 83.13%,6.86% and 82.75% respectively,and the chain growth probability was 0.83 under the condition of 493 K,1.5 MPa,500 h~(-1)and the molar ratio of H_2 to CO being 2.0 in feed.     

丝光沸石负载铂,钯催化剂的NO催化还原性能

丝光沸石负载铂、钯催化剂的ＮＯ催化还原性能１）罗孟飞朱波袁贤鑫（杭州大学催化研究所杭州３１００２８）关键词ＮＯ催化还原丝光沸石铂钯如何消除ＮＯｘ对环境造成的污染是当前人们所关心的课题之一，其中催化还原是消除ＮＯｘ的常用方法［１］．近几年，人们对金属离...     

贫燃条件 In-Ag/TiO2-γ-Al2O3催化 CO选择性还原NO

汽车尾气中主要污染成分 CO和 NOx可导致酸雨、光化学烟雾和臭氧空洞效应,对生物、环境及生态系统造成重大危害。污染源中 CO是性能优良的还原剂,如能不添加还原剂实现 CO催化还原 NOx,将成为最具经济技术优势的 NOx脱除技术。在富氧、低温条件下,利用 CO选择性催化还原 NOx为 N2,是目前选择性催化还原研究中的热点和难点。催化 CO还原 NOx常用的贵金属 Ir, Rh, Pt和Pd矿藏稀少,价格昂贵,有氧条件下活性急降,而分子筛催化剂和一些金属氧化物催化剂普遍存在反应温度高,尤其对 N2选择性差等问题。为解决上述问题,需寻找新的适合我国矿产资源的催化体系。研究发现,稀散金属基催化剂对氮氧化物的净化具有一定效果,因而可将我国的稀散金属资源优势转化为技术优势和经济优势。因此,本文以 TiO2-γ-Al2O3(TA)为载体, In/Ag为活性组分,采用等体积浸渍法制备了 InAg/TA以及 In/TA, Ag/TA和InAg/Al (γ-Al2O3为载体)催化剂,考察了贫燃条件下 CO选择性还原NO的催化活性。研究表明,双金属催化剂InAg/Al和 InAg/TA的活性比单金属催化剂In/TA和 Ag/TA高, In/TA催化剂中引入 Ag物种能降低起燃温度;另外,相比于InAg/Al催化剂, InAg/TA催化剂具有较高的催化活性,550?600°C时 N2产率超过60%,说明载体中引入TiO2可以提高催化剂活性。为了深入研究 InAg/TA催化剂中 Ag物种和TiO2对 In物种的作用,通过比表面测定、X射线衍射(XRD)、透射电子显微镜(TEM)、X射线光电子能谱、紫外-可见光吸收光谱、氢气程序升温还原、傅立叶变换红外线光谱等方法分析了催化剂结构和表面形态。结果表明, Ag物种可以提高 In物种的分散性, In和 Ag物种在 TA载体表面可以很好地分散,从而有利于提高催化活性。 In和 Ag物种在 TA载体表面以氧化态形式存在,并且 Ag物种可以提高 In物种表面含量,表面 In和 Ag物种含量越高,吸附活性位越多,催化活性越高;同时, TiO2也可以促进 NO吸附,从而提高 InAg/TA催化剂活性。 InAg/TA催化剂在450°C连续反应72 h进行稳定性测试,测试前后分别在50?600°C进行活性测试,并用 XRD和 TEM对反应后的催化剂进行表征测试。结果表明, InAg/TA催化剂具有较好的稳定性,连续反应前后催化剂活性基本保持不变,推测可能由于在有 CO和O2存在的体系中, Ag物种利用自身 Ag+与 Ag0之间的氧化还原反应抑制了活性组分 In2O3的还原和聚集,稳定了 In物种乃至催化剂活性。 InAg/TA催化剂用于贫燃条件下CO还原NO具有较好的催化效果,主要归因于催化剂活性组分分散性好,稳定性高,对NO吸附能力强。 Ag物种可以稳定In物种并提高其分散性, TiO2可以改善In物种和Ag物种的分散性并促进NO吸附。     

Catalytic reduction of NO with decomposed methanol on alumina-supported Mn-Ce catalysts

A series of manganese-ceria supported on alumina catalysts with various Mn/Ce ratios are investigated in both methanol decomposition to CO and hydrogen and SCR of NO(x) with CO. The study is aimed at the potential application of both reactions in integrated devices, where NO(x) is reduced with the products of the decomposed methanol. The samples are characterized by nitrogen physisorption, XRD, TEM, XPS, UV-Vis, and TPR. It was established that manganese-ceria supported on alumina catalysts are perspective in both methanol decomposition and NO reduction at temperatures above 723 K, which are typical for exhausted gases from the vehicles and some stationary stations. The best catalytic activity and selectivity to the desired products under these conditions was found for the samples with Mn/Mn+Ce ratio of 0.5 and 0.7. This superior catalytic performance is related to the formation of mixed valence Mn(3+)/Ce(4+) and Mn(4+)/Ce(3+) active sites.     

结构助剂SiO2、Al2O3对铁基催化剂浆态床F-T合成性能的影响

采用连续共沉淀与喷雾干燥成型技术相结合的方法制备了微球状Fe/Cu/K/SiO2和Fe/Cu/K/Al2O3催化剂,研究SiO2和Al2O3作为结构助剂对铁基催化剂吸附行为、炭化行为及F-T合成反应性能的影响。表征结果表明,与Al2O3相比较,SiO2抑制了H2的吸附,但促进了CO的吸附,有利于催化剂的炭化。催化剂在260℃、1.5MPa、H2/CO=0.67和2000h-1下的浆态床F-T合成反应评价表明,Fe/Cu/K/SiO2催化剂具有较高的F-T合成活性、高的水煤气变换反应（WGS）活性,且其烃产物选择性明显向高炭数方向偏移,而Fe/Cu/K/Al2O3催化剂则表现出较低的F-T合成活性、低的水煤气变换反应（WGS）活性和高的轻质烃选择性。但Fe/Cu/K/Al2O3催化剂比Fe/Cu/K/SiO2催化剂具有更好的运行稳定性。     

碱 性 载 体 对 负 载 型ＣｏＯ 催 化 剂 催 化 性 能 的 影 响

采用XRD、TPR、TPD、XPS和催化活性评价等技术,考察了负载型CoO催化剂的表面性质和其对CH4与CO2重整制合成气反应的催化性能.实验结果表明,碱性载体或助剂MgO和La2O3的添加能有效地改善CoO催化剂的表面结构、抗积炭能力和还原性能,CoO/MgO催化剂显示出最佳的催化反应稳定性,在750℃、GHSV=2500h-1、CH4/CO2原料比为1:1下,连续反应100h内催化剂活性较为稳定,CoO/MgO和CoO/γ-Al2O3催化剂的表面性质本质上是不相同的.     

担载型钴镍金属氧化物催化剂上CH4还原NO反应研究

ＮＯｘ是大气的主要污染物之一,近年来,利用甲烷选择还原ＮＯｘ引起了广泛关注,研究发现,Ｃｏ、Ｍｎ和Ｎｉ离子交换的ＺＳＭ－５分子筛具有较高的活性［１～３］．但金属离子交换的分子筛催化剂有热稳定性差、易失活等缺点．最近已有金属氧化物用作甲烷还原ＮＯｘ反应...     

TiO2对Ni/Al2O3催化剂CO甲烷化性能的影响

采用溶胶凝胶法制备了一系列不同TiO₂含量的TiO₂-Al₂O₃复合载体,并通过浸渍法制备了NiO/TiO₂-Al₂O₃催化剂。分别考察了不同TiO₂含量的NiO/TiO₂-Al₂O₃催化剂及反应温度对CO甲烷化催化性能的影响。实验结果表明,当复合载体中TiO₂质量分数为30%,反应温度为350～450 ℃时,催化剂催化活性较高。利用N₂吸附-脱附(BET)、X射线衍射(XRD)及H₂程序升温还原(H₂-TPR)等手段对催化剂物化性能进行了表征。结果表明,加入适量的TiO₂能抑制镍铝尖晶石NiAl₂O₄物种的生成,改善NiO的表面分散性能,避免大晶粒NiO的形成,也改善了催化剂的还原性能,从而提高催化剂的CO甲烷化活性。     

CO在担载Ru催化剂上的吸脱附作用及其表面加氢反应

研究了担载于Al_2O_3和ZrO_2上的以Ru_3(CO)_(12)为前体的[Ru]和以RuCl_3为前体的Ru催化剂的TPR特性、CO吸脱附行为及其表面加H_2反应。担载于Al_2O_3上的[Ru]和Ru催化剂上部分物相较担载于ZrO_2上者难于还原。CO在氧化[Ru]催化剂上主要以Ru(CO)yO_2表面络合物形式存在,在还原[Ru]和Ru、以及氧化Ru催化剂上CO以吸附物种形式存在。在Ru离子上的CO比在Ru原子上者难于脱附。以ZrO_2为载体的[Ru]和Ru催化剂上的CO加H_2生成CH_4的性能显著优于以Al_2O_3为载体者,担载[Ru]催化剂上的CO加H_2性能略优于担载Ru催化剂。     

整体式Pd/La_2O_3-Al_2O_3和Pd/CeO_2-ZrO_2-Y_2O_3催化剂上汽油车尾气净化性能的比较

采用共沉淀法制备了耐高温高比表面积的La2O3-Al2O3(LA)材料和CeO2-ZrO2-Y2O3(CZY)储氧材料,并用浸渍法制备了整体式Pd/LA和Pd/CZY汽油车尾气净化三效催化剂,考察了它们的三效催化性能和空燃比性能,并单独通过水煤气变换和CO氧化反应性能的考察,探讨了两种催化剂空燃比窗口扩大的原因.结果表明,Pd/CZY催化剂三效窗口明显较宽,且催化氧化CO的性能明显更优;对于CO+NO反应,Pd/CZY催化剂的活性较高.当反应中逐步通入O2后,抑制了该反应的进行,但CO氧化的转化率升高,而NO转化率降低,直至CO+NO反应完全被抑制,表明CO氧化反应对于抑制催化剂在NO贫燃方向的窗口具有一定的作用.另外,Pd/CZY催化剂上对于水煤气变换反应性能明显优于Pd/LA催化剂,在一定温度下逐步通入O2后,不会抑制水煤气变换反应的发生;当逐步通入NO时,可以促进水煤气变换反应的进行,表明Pd/CZY催化剂在富燃时对扩展CO转化窗口的性能明显优于Pd/LA催化剂.     

Effects of the Different Supports on the Activity and Selectivity of Iron-Cobalt Bimetallic Catalyst for Fischer-Tropsch Synthesis

Silica, alumina, and activated carbon supported iron-cobalt catalysts were prepared by incipient wetness impregnation. These catalysts have been characterized by BET, X-ray diffraction (XRD), and temperature-programmed reduction (TPR). Activity and selectivity of iron-cobalt supported on different carriers for CO hydrogenation were studied under the conditions of 1.5 MPa, 493 K, 630 h-1, and H2/CO ratio of 1.6. The results indicate that the activity, C4 olefin/(C4 olefin C4 paraffin) ratio, and C5 olefin/(C5 olefin C5 paraffin) decrease in the order of Fe-Co/SiO2, Fe-Co/AC1, Fe-Co/Al2O3 and Fe-Co/AC2. The activity of Fe-Co/SiO2 reached a maximum. The results of TPR show that the Fe-Co/SiO2 catalyst is to some extent different. XRD patterns show that the Fe-Co/SiO2 catalyst differs significantly from the others; it has two diffraction peaks. The active spinel phase is correlated with the supports.     

富氧条件下Ir催化NO反应

用浸渍法制备了系列Ir催化剂, 研究了富氧条件下Ir催化NO的反应, 考察了催化剂的催化反应性能及负载量和载体对催化活性的影响. 结果表明, 在Ir催化剂上不仅发生了NO氧化反应, 同时也发生了NO还原反应; Ir催化剂对NO反应有催化作用, 催化活性随Ir负载量的增加而增强. 载体对催化剂活性有一定的影响, 负载量低于0.1%(w)时, 催化NO氧化的活性顺序为Ir/ZSM-5>Ir/γ-Al2O3>Ir/SiO2, 这主要受载体自身性质的影响; 负载量高于0.1%时, 催化NO氧化的活性顺序为Ir/ZSM-5>Ir/SiO2>Ir/γ的活性顺序为Ir/γ-Al2O3>Ir/SiO2>Ir/ZSM-5, 这主要由于载体吸附作用促进了NO2在Ir催化剂上吸附分解. 与Pt催化剂相比, Ir催化剂更有利于促进NO还原.     

稀土氧化物上SO2和NO的催化还原(Ⅲ)──用CO作还原剂的同步脱硫和脱氮

考察了稀土系列氧化物作为CO同步还原SO₂和NO催化剂的活性.结果表明,氧化钐和氧化钕表现了最高的活性,在475℃,SO₂和NO的转化率同时超过95%.实验发现稀土氧硫化物是活性相.通常脱硫活性高的样品同样具有高的脱氮活性,但CeO₂表现了不同的行为,其脱硫活性虽低,但脱氮活性却较高.文中还对同步反应的机理作了探讨,发现COS不仅是还原SO₂的中间物,同时也是还原NO的中间物.结合活性相和反应机理对不同稀土氧化物的活性差异作了讨论.     

Cu?Ti?O catalyst for complex purification of gases

Cu–Ti–O catalysts activity in the reactions of complete oxidation of CO and C₄H₁₀, selective catalytic reduction of NO by ammonia, SO₂ oxidation to SO₃, as well as the catalyst resistance to sulfur poisoning were studied. We suggest these catalysts for the combined removal of NO, CO and toxic organics from flue gases.     

Fundamentals of melt infiltration for the preparation of supported metal catalysts. The case of Co/SiO2 for Fischer-Tropsch synthesis

We explored melt infiltration of mesoporous silica supports to prepare supported metal catalysts with high loadings and controllable particle sizes. Melting of Co(NO(3))(2)·6H(2)O in the presence of silica supports was studied in situ with differential scanning calorimetry. The melting point depression of the intraporous phase was used to quantify the degree of pore loading after infiltration. Maximum pore-fillings corresponded to 70-80% of filled pore volume, if the intraporous phase was considered to be crystalline Co(NO(3))(2)·6H(2)O. However, diffraction was absent in XRD both from the ordered mesopores at low scattering angles and from crystalline cobalt nitrate phases at high angles. Hence, an amorphous, lower density, intraporous Co(NO(3))(2)·6H(2)O phase was proposed to fill the pores completely. Equilibration at 60 °C in a closed vessel was essential for successful melt infiltration. In an open crucible, dehydration of the precursor prior to infiltration inhibited homogeneous filling of support particles. The dispersion and distribution of Co(3)O(4) after calcination could be controlled using the same toolbox as for preparation via solution impregnation: confinement and the calcination gas atmosphere. Using ordered mesoporous silica supports as well as an industrial silica gel support, catalysts with Co metal loadings in the range of 10-22 wt % were prepared. The Co(3)O(4) crystallite sizes ranged from 4 to 10 nm and scaled with the support pore diameters. By calcination in N(2), pluglike nanoparticles were obtained that formed aggregates over several pore widths, while calcination in 1% NO/N(2) led to the formation of smaller individual nanoparticles. After reduction, the Co/SiO(2) catalysts showed high activity for the Fischer-Tropsch synthesis, illustrating the applicability of melt infiltration for supported catalyst preparation.     

Versatile carbon supported mono and bimetallic nanocomposites: synthesis,characterization and their potential application for furfural reduction

Biomass conversion has been developed by testing various metal based carbon catalysts. Most of the reported catalysts either use very expensive metals or support that provides lower selectivity. In this context, we fabricated new carbon based nanocomposites and studied their catalytic application for furfural reduction – a promising biomass derived molecule. The mono (Cu, Co and Ni) and bimetallic (CuCo and CuNi) nanoparticle supported on commercial graphite (CG) were prepared and characterized by TEM, EDS, XRD and Raman spectroscopy. The analysis revealed that the nanocomposites are made up of metallic nanoparticles with average particle size of 5–13 nm on the graphite matrix. The obtained results indicated that the Cu+Ni@CG catalyst exhibited high catalytic activity for furfural reduction, thus leaving Cu+Ni as the finest and cost effective catalyst for this study.     

Influence of CeO2 and La2O3 on properties of palladium catalysts used for emission control of natural gas vehicles

Pd/YZ-Al2O3 (Y and Zr modified Al2O3, and hereafter, labelled as Al) catalysts with 4 wt% additive CeO2 and/or La2O3 were prepared and characterized by X-ray photoelectron spectroscopy (XPS), NO-temperature programmed desorption (NO-TPD), N2-adsorption/desorption (Brunauer-Emmet-Teller BET method), X-ray diffraction (XRD) and CO-chemisorption. Catalytic activities for CH4, CO and NO conversion were tested in a gas mixture simulated the emissions from natural gas vehicles (NGVs) operated under stoichiometric conditions. The results indicated that all catalysts exhibited excellent catalytic performances for CH4 and CO oxidation and the promoting effect of CeO2 or La2O3 was significant for NO conversion. XPS results showed that the electron density around Pd was increased by CeO2 and/or La2O3, the binding energy of Pd 3d decreased as the order: Pd/Al>Pd/Ce/Al>Pd/La/Al>Pd/CeLa/Al. The electron-rich Pd showed Rh-like catalytic properties which exhibited good activity for the reduction of NO. NO-TPD results showed that the addition of CeO2 and/or La2O3 increased NO adsorption on surface, and promoted the conversion of NO.     

制备方法对Ni/MgO/Al2O3催化剂在甲烷与二氧化碳重整反应活性的影响

采用浸渍－还原法制备的Ｎｉ／ＭｇＯ／Ａｌ２Ｏ３在ＣＨ４与ＣＯ２重整制合成气反应中显示出良好的催化性能和一定的抗积炭能力;在１０２３Ｋ下流动反应气氛中连续运转１００ｈ,未见活性下降,ＣＨ４及Ｃ弦均为９０％左右,ＣＯ收率高于９０％,实验还发现,ＣＨ４转化率随着原料气中ＣＯ２浓度的增加而升高,当Ｖ（ＣＯ２）／Ｖ（ＣＨ４）＝２时ＣＨ４转化率可达１００％,通过ＢＥＴ比表面积测定及ＸＲＤ,ＴＥＭ等分析手段,比