硫化态NiW/Al2O3催化剂加氢脱硫活性相的研究Ⅱ.程序升温还原表征

 采用程序升温还原法对一系列具有相同W含量和不同Ni含量的硫化态NiW/Al2O3催化剂进行了表征,以考察催化剂中不同硫物种的数量及还原性能. 结果表明,含有助剂Ni的催化剂TPR谱在673~873 K出现了一个还原峰,归属为催化剂的NiWS混合相被分解生成的硫化镍物的还原. 随着助剂Ni含量的增加,与该还原峰相应的H2S生成量增大,表明形成了更多的NiWS活性相. 另外,Ni/(Ni+W)原子比为0.41的催化剂样品的噻吩加氢脱硫活性随着还原温度的升高而急剧下降,证实了催化剂在还原过程中活性相被逐步分解.     

Dehydrogenation of methanol to methyl formate over CuO?SiO2 gel catalyst

CuO−SiO₂ gel catalysts were prepared by sol-gel method and were characterized by UV-Visible diffuse reflectance spectroscopy (DRS), X-ray diffraction (XRD) and temperature-programmed reduction (TPR). It was found that the copper loadings have a strong influence on the reduction and catalytic properties of CuO−SiO₂ gels. A great part of copper oxide is highly dispersed as confirmed by TPR, XRD and DRS data. The catalysts are shown to be active and selective toward methyl formate formation in methanol dehydrogenation due to the presence of highly dispersed copper over SiO₂.     

Comparison of reduction behavior of Fe2O3, ZnO and ZnFe2O4 by TPR technique

Advanced integrated gasification combined cycle (IGCC) power generation systems require the development of high-temperature,regenerable,desulfurization sorbents capable of removing hydrogen sulfide from coal gasifier gas to very low levels.As a sort of effective desufurizer,such as Fe2O3,ZnO and ZnFe2O4,it will endure strong reducing atmosphere in desulfurization process.The reduced degree of desufurizer can have an effect on its desulfurization reactivity.In this paper,Fe2O3,ZnO and ZnFe2O4 were synthesized by precipitation or co-precipitation at constant pH.After aging,washing and drying,the solids were calcined at 800℃.The reduction behaviors of sample were characterized by temperature-programmed reduction (TPR).It is found that there are two reduction peaks for Fe203 in TPR,and whereas no reduction peaks for ZnO are found.The reduction process of ZnFe2O4 prepared by co-precipitation is different from that of Fe2O3.ZnFe2O4 is easier to be reduced than Fe2O3.The activation energy of reduction process for Fe2O3 and ZnFe2O4 is obtained at different reduction periods.     

Pd/Ce/Al/蜂窝陶瓷催化剂制备方法的研究

本文应用溶胶－凝胶技术对蜂窝陶瓷表面进行涂层,然后负载活性组分,以CO氧化作模型反应,考察了催化剂干燥方法,浸涂原液类型以及助剂CeO2对汽车尾气净化催化剂活性的影响,并应用TPR、XPS等手段对其进行表征,由催化剂活性测试结果表明,干燥方法对催化剂活性影响不大,加入分散剂的氧化铝溶胶作浸渍原液的催化活性最高,同时活性评价实验结果还表明,加入CeO2作助剂的催化剂的活性明显提高,这可能是由于PdO与CeO2之间发生的协同效应所致,XPS谱图结果显示,CeO2与PdO之间存在协同作用,且Pd处于较高的氧化状态,这可能起因于从Pd到Ce的电子转移作用,Ce处于较低的还原状态,导致Ce-O键结合强度的降低。H2－TPR表征结果同样证实了PdO与CeO2之间存在协同效应,CeO2的引入,促进了PdO的还原,而PdO的存在降低了CeO2表面氧的还原温度,同时此现象也支持了XPS结论。     

The reduction of copper in porous matrices--the role of electrostatic stabilisation

The redox properties of Cu(II) species in FAU matrices have been studied by temperature programmed reduction (TPR) in hydrogen and by XAFS analysis of the products obtained after (stationary) reduction treatments at various temperatures. The influence of the matrix polarity was investigated by comparing aluminosilicate FAU (Y zeolite) with siliceous FAU. In addition, the influence of Zn ions on the reduction process was studied. It was found that both the matrix composition and the presence of zinc ions exert a significant influence on the course of the reduction. In Y zeolite, heat treatment which is known to transfer Cu(II) ions to remote sites (SI, SI', SII') affects the reduction process dramatically. Cu(II) is most easily reduced in siliceous FAU, but the reduction proceeds in two clearly separated steps. Between these steps, small Cu(0) nuclei coexist with Cu(I) species, apparently unable to activate hydrogen for the autocatalytic reduction of the remaining Cu ions. The polarity of the matrix causes an upshift of the Cu(II) reduction temperature (in TPR by ca. 80 K for sites in the large cavity, by ca. 105 K for the remote sites), but the reduction of Cu(I) depends strongly on the simultaneous presence of Cu(0) and on its ability to activate hydrogen and induce an autocatalytic reduction mechanism. While Cu(I) species in the large cavities are easily reduced to the metal, tending to segregate from the zeolite lattice, Cu(I) ions in remote sites are strongly stabilized towards further reduction and even traces of Cu metal form only at very high temperatures. In the presence of zinc ions, the Cu metal particles formed were found to be smaller than in zinc-free samples.     

Combined in situ XRD and in situ XANES studies on the reduction behavior of a rhenium promoted cobalt catalyst

A 10% Co-4% Re/(2% Zr/SiO(2)) catalyst was prepared by co-impregnation using a silica support modified by 2% Zr. The catalyst was characterized by temperature programmed reduction (TPR), in situ XRD and in situ XANES analysis where it was simultaneously exposed to H(2) using a temperature programmed ramp. The results showed the two step reduction of large crystalline Co(3)O(4) with CoO as an intermediate. TPR results showed that the reduction of highly dispersed Co(3)O(4) was facilitated by reduced rhenium by a H(2)-spillover mechanism. In situ XRD results showed the presence of both, Co-hcp and Co-fcc phases in the reduced catalyst at 400 °C. However, the Co-hcp phase was more abundant, which is thought to be the more active phase as compared to the Co-fcc phase for CO hydrogenation. CO hydrogenation at 270 °C and 5 bar pressure produces no detectable change in the phases during the time of experiment. In situ XANES results showed a decrease in the metallic cobalt in the presence of H(2)/CO, which can be attributed due to oxidation of the catalyst by reaction under these conditions.     

CHARACTERIZATION AND CATALYTIC PERFORMANCE OF PLATINUM SUPPORTED ON Sn-MgAl_2O_4

IntroductionSupportedPt-Sncatalystsareimpo~inthepdrileumandpthechendcalindustricsbecauseoftheirsuperiorcatalyticperformances.Forexample,Pt-Snsupportedonaneutralsupporthasbeenreportedtoexhibithighdehydrogenationselectivityanddebilitythansupportedplatinumca…     

TPR, TPO, and TPD examinations of Cu0.15Ce0.85O(2-y) mixed oxides prepared by co-precipitation, by the sol-gel peroxide route, and by citric acid-assisted synthesis

Temperature-programmed reduction (TPR), oxidation (TPO), and desorption (TPD) studies were performed on three copper-ceria mixed oxide samples having the same nominal composition, Cu0.15Ce0.85O(2-y), but prepared in three different ways: by co-precipitation, the sol-gel peroxide route, and the sol-gel citric acid route. The obtained results reveal that despite a drastic initial drop in specific surface area after consecutive redox cycles, the hydrogen consumption remains constant. This is because CuO is highly dispersed over the surface of CeO2 nanocrystallites and remains highly dispersed even after the agglomeration of CeO2 nanocrystallites in a denser secondary structure. The dispersed CuO is reduced to Cu(0) during the TPR, forming agglomerated metal particles on the surface of partially reduced CeO2. However, after subsequent temperature-programmed oxidation all the Cu(0) is oxidized back into CuO and redispersed over the CeO2 crystallites.     

甲醇羰基化制醋酸镍基双金属催化剂的研究

在ＮｉＣ催化剂中分别添加了九种不同的金属组分,在加压和碘甲烷助剂的存在下考察了第二金属组分及含量对甲醇羰基化反应性能的影响。结果表明：分别添加Ｐｄ、Ｍｏ、Ｌａ三种组分可不同程度地提高ＮｉＣ催化剂的羰基化活性,其中以Ｐｄ的效果最佳,Ｎｉ和Ｐｄ之间存在着明显的相互作用。Ｐｄ含量为１％时,羰基化活性达到最高,甲醇转化率和醋酸收率分别为９２４０％和４９７３％。Ｎｉ－ＰｄＣ双金属催化剂的活性中心主要为Ｎｉ０,还有少量Ｐｄ０存在,Ｐｄ能够显著促进ＮｉＯ的还原,这可能是氢溢流现象所致     

含铈Cu-Fe-O催化剂的氧化还原性研究

用TPR等方法研究了Cu-Fe-Ce-O/γ-Al₂O₃(Ⅰ)催化剂的氧化还原性能。结果表明,在(Ⅰ)中铜的存在有利于Fe₂O₃的还原,铈作为助催化剂能增强Cu-Fe-O/γ-Al₂O₃(Ⅱ)的氧化还原性能,配合CO、NO和CO+NO气对试样进行预处理后发现,铜吸附CO的能力比铁强,铁吸附NO的能力比铜强,铈的存在可增强(Ⅱ)在NO+CO反应气氛中对CO的吸附能力,并对NO在催化剂表面吸附形成硝酸盐物种产生影响。     

使用程序升温还原方法认识无机化合物的氧化还原行为——面向拔尖计划学生的综合实验

元素化学是无机化学教学的重要组成部分。通过实验的方法研究元素及其无机化合物的性质和反应规律,可以使传统的描述性教学成为易于形象理解和深入掌握的立体化教学。本实验包含简单无机化合物的合成制备以及运用程序升温还原技术(TPR)考查所制备的材料的氧化还原性质两部分内容。程序升温还原方法可以非常直观地反映出样品的还原过程,并可以给出样品还原能力强弱(峰的位置,用于定性考查)、还原物种种类和数目(峰的数目、强弱,用于定量考查),以及各组分之间的相互作用的信息。程序升温还原技术操作简便、易实行,可在高校化学实验教学中推广使用。     

Analytical expressions for temperature programmed reduction patterns using solid-state kinetics

Using solid-state kinetics, analytical mathematical expressions are derived which describe the pattern generated during a temperature-programmed reduction (TPR) experiment conducted under differential conditions. From these expressions the influence of the heating rate on the TPR peak maximum can be established; it is shown that this influence can, in principle, be approximated by Kissinger's equation, independent of the reduction mechanism selected.     

Role of ZnNb2O6 in ZnO-promoted amorphous-Nb2O5 supported Ru catalyst for the partial hydrogenation of benzene

Ruthenium catalysts supported on zinc-promoted amorphous-niobium mixed oxides were prepared, characterized, and studied in the additive-free partial hydrogenation of benzene reaction. The amorphous matrix of Nb₂O₅ was responsible for a highly active Ru/Nb₂O₅ catalyst, although less selective than those containing zinc. The ZnO-containing supports were prepared by wet impregnation technique, followed by incipient wetness of ruthenium chloride salt. The catalysts were characterized by textural analysis, X-ray fluorescence, X-ray diffraction, H₂ chemisorption, temperature-programmed reduction (TPR), Scanning electron microscopy, H₂ temperature-programmed desorption, and X-ray photoelectron spectroscopy (XPS) of the calcined-reduced samples. Chlorine retention was observed on zinc-containing samples. An unexpected ZnNb₂O₆ oxide phase, ascribed to a selectivity increase with less activity loss, was obtained for the supports at lower temperatures than those related on the literature. A very complex electronic environment of Ru- and Zn-containing species interactions was observed by TPR. The presence of surface-reduced (Ru⁰) and partially reduced (Ru^δ+) Ru species observed by XPS justified well, respectively, the activity and selectivity achieved with every catalyst. The addition of water as a solvent resulted in very constant yield to cyclohexene, as expected, despite activity diminution due to low solubility of the reactants.     

Temperature-programmed reduction study on carbon-supported platinum-gold alloy catalysts

Alloy catalysts of Pt-Au/C with different Pt/Au ratios were prepared by the precipitation-deposition of metal chlorides and reduced by H(2) at 470 K. The surface composition of alloy crystallites deposited on the prepared catalysts was characterized by a technique of temperature-programmed reduction (TPR). In the characterization, O(2) was chemisorbed on the reduced catalysts and the chemisorbed O(2) was reduced by TPR. A low-temperature routine (LT) in the temperature range between 120 and 430 K was used for the TPR characterization. Monometallic catalysts of Au/C and Pt/C showed a reduction peak in the LT-TPR at reduction temperature (T(r))=145 and 240 K, respectively. T(r) from alloyed catalysts fell in the range and increased monotonously with their Pt/Au ratios. Interior Pt atoms in deposited alloy particles tended to segregate toward their surface during oxidation treatment at elevated temperatures.     

Tmperature programmed techniques study on the nature of the oxidant in/on V2O5catalyst ?

Summary The nature of the oxidising species in/on a vanadium pentoxide (V₂O₅) catalyst has been studied using a combination of transient techniques: (i) Temperature programmed desorption (TPD), (ii) Temperature programmed reduction (TPR), (iii) Temperature programmed oxidation (TPO) and (iv) Temperature programmed reaction (TPRn). Chemisorbed oxygen was found not to exist on a fully oxidised V₂O₅ catalyst by TPD. The TPR in CO over V₂O₅ catalyst gave three peak maxima at 930, 982 and 1043 K, indicating that three types of kinetically different oxygen states exist in/on the catalyst. Reoxidation of the CO reduced V₂O₅ catalyst by N₂O resulted in the quantitative replacement of the lattice oxygen. A further reduction of the N₂O reoxidised catalyst gave a significantly different TPR profile compared to the original material suggesting that a less crystalline material had formed. The presence of phosphorus in (VO)₂P₂O₇ was found to labilise the lattice oxygen.     

Study on thermal stability of tertiary pyridine resin

The fundamental properties of tertiary pyridine resin (TPR) and its mixtures with methanol/HCl and HNO₃ were investigated in order to evaluate the thermal stability of TPR and to determine the conditions necessary to avoid runaway reactions. Based on experimental DSC results, it was found that TPR with HCl was thermally stable, but strong decomposition was possible with TPR in the presence of HNO₃. From the results of heating tests on the gram scale, TPR with HNO₃ reacted violently under high temperature regardless of HNO₃ concentration and presence or absence of methanol. However, it was considered that the violent exothermic reaction could be controlled by heating temperature.     

CuO/ZrO2活性组分与载体相互作用及其TPR特性

铜基氧化物催化剂具有多种催化功能，许多催化工作者对铜基催化剂的结构、组成、活性组份与载体的作用等一直进行着细致深入地研究，人们尤其重视用TPR、XRD和XPS等手段[1-3]和考察CuO的还原活化过程．ZrO2是常用的催化剂载体之一，具有良好的热稳定性．因此近年来有关以氧化锡     

Effect of the ZrO2 Pore Structure on the Reduction of a Supported Cobalt Oxide in Catalysts for Fischer–Tropsch Synthesis

Processes occurring in the preparation of the Co/ZrO₂ + 6% Y₂O₃ catalyst are studied by temperature-programmed reduction (TPR). The effects of the concentration of Co, the porosity of the support, and the calcination temperature on catalyst reduction were studied. As was shown by continuous magnetization measurements in the course of TPR, metallic cobalt appeared on the microporous support in two temperature ranges irrespective of the precalcination temperature and the concentration of supported cobalt. These factors affect the reduction rate but do not change the maximum temperatures of the corresponding peaks. It is suggested that the first maximum of the Co formation rate is due to the reduction of CoO particles on the surface of the support and within macropores, whereas the second maximum is due to the reduction of CoO particles located within support micropores. Only one temperature range of CoO reduction was found in the macroporous ZrO₂ + 6% Y₂O₃. This effect is likely due to mass transfer in support micropores.     

氧化镍/莫来石-刚玉催化剂中添加La2O3的作用

用ＸＲＤ，ＴＰＲ，ＴＧ－ＤＴＡ考察了氧化镍／莫来石－刚玉催化剂添加Ｌａ２Ｏ３对ＮｉＯ性质的影响及两者间的相互作用，Ｌａ２Ｏ３使得催化剂中ＮｉＯ的晶格常数及分散容量增大，而晶相含量减少，还发现，添加Ｌａ２Ｏ３，使一次ＴＰＲ过程中ＮｉＯ还原温度升高，耗氢量增加了Ｌａ２Ｏ３对二次ＴＰＲ中ＮｉＯ还原温度的影响减小，耗氢量不受影响，Ｌａ２Ｏ３的添加方式及含量不同，对ＮｉＯ性质的影响也不相同。     

Thermoanalytical characterization of molybdenum-based catalytic materials

Thermoanalytical techniques, especially temperature-programmed reduction (TPR), were employed for the characterization of oxidic precursors of molybdenum-based catalysts, sulfides derived from them, and three thiomolybdate compounds, employed as models or precursors of hydrodesulfurization atalysts. Correlations were found between TPR data and the presence of single and mixed oxides of Mo and Ni, Co or Fe, as demonstrated by XRD. The same phases and the thiomolybdates were shown to be present in supported catalytic precursors. Differences between the reducibilities of the mixed oxides of Ni-Mo, Co-Mo and Fe-Mo are easily appreciated from TPR, including those of the - and - polymorphic modifications of NiMoO₄.Support from Venezuela's Consejo Nacional de Investigations Científicas y Tecnológicas (CONICIT) and the International Activities Program of the American Chemical Society is gratefully acknowledged. The use of the TPR/TPD 2900 instrument was made possible by a generous loan of Micromeritics. Special thanks to my students and coworkers, who co-authored the publications cited in the list of references.