Effect of Transition Metals (Cu, Co and Fe) on the Autothermal Reforming of Methane over Ni/Ce0.2Zr0.1Al0.7Oδ Catalyst

The transition metals (Cu, Co, and Fe) were applied to modify Ni/Ce0.2Zr0.1Al0.7Oδ catalyst.The effects of transition metals on the catalytic properties of Ni/Ce0.2Zr0.1Al0.7Oδ autothermal reforming of methane were investigated. The Ni-supported catalysts were characterized by XRD, TPR and XPS.Tests in autothermal reforming of methane to hydrogen showed that the addition of transition metals (Cu and Co) significantly increased the activity of catalyst under the conditions of lower reaction temperature,and Ni/Cu0.05Ce0.2Zr0.1Al0.65Oδ was found to have the highest conversion of CH4 among all catalysts in the operation temperatures ranging from 923 K to 1023 K. TPR, XRD and XPS measurements indicated that the cubic phases of CexZr1-xO2 solid solution were formed in the preparation process of catalysts.Strong interaction was found to exist between NiO and CexZr1-xO2 solid solution. The addition of Cu improved the dispersion of NiO, inhibited the formation of NiAl2O4, and thus significantly promoted the activity of the catalyst Ni/Cu0.05Ce0.2Zr0.1Al0.65Oδ.     

CH4,CO2和O2制合成气反应中载体对Ni催化剂抗氧化性能的影响

在ＣＨ４、ＣＯ２ 催化氧化制合成气反应中, Ｎｉ／Ａｌ２Ｏ３ 催化剂在高温下生成ＮｉＡｌ２Ｏ４ 尖晶石,是导致催化剂失活的一个重要因素． 通过向载体（Ａｌ２Ｏ３）中添加各种氧化物, 使得催化剂的抗氧化性能得到改善． 并运用ＴＰＲ、ＸＲＤ对催化剂进行表征, 发现催化剂的抗氧化性顺序为： Ｎｉ／ＣａＯ－Ａｌ２Ｏ３ ＞ Ｎｉ／ＭｇＯ－Ａｌ２Ｏ３ ＞ Ｎｉ／ＣｅＯ２－Ａｌ２Ｏ３ ＞ Ｎｉ／Ｌａ２Ｏ３－Ａｌ２Ｏ３ ＞ Ｎｉ／Ｙ２Ｏ３－Ａｌ２Ｏ３ ＞ Ｎｉ／ＴｉＯ２－Ａｌ２Ｏ３＞ Ｎｉ／Ａｌ２Ｏ３＞ Ｎｉ／Ｆｅ２Ｏ３－Ａｌ２Ｏ３．     

Autothermal reforming of methane over Ni catalysts supported over ZrO2-CeO2-Al2O3

Ni catalysts supported on Al2O3, ZrO2-Al2O3, CeO2-Al2O3 and ZrO2-CeO2-Al2O3 were prepared by coprecipitation method, and their catalytic performances for autothermal reforming of methane to hydrogen were investigated. The Ni-supported catalysts were characterized by XRD, TPR and XPS. The relationship between the structures and catalytic activities of the catalysts was discussed. The results showed that the catalytic activity and stability of the Ni/ZrO2-CeO2-Al2O3 catalyst was better than those of other catalysts with the highest CH4 conversion, H2/CO and H2/COx ratio at 750 ℃. The catalyst showed a little deactivation along the reaction time during its 72 h on stream with the mean deactivation rate of 0.08%/h. The catalytic performance of the Ni/ZrO2-CeO2-Al2O3 catalyst was also affected by reaction temperature, no2 ： nCH4 molar ratio and nH2O ： nCH4 molar ratio. TPR, XRD and XPS measurements indicated that the formation of ZrO2-CeO2 solid solution could improve the dispersion of NiO, and inhibit the formation of NiAl2O3, and thus significantly promoted the catalytic activity of the Ni/ZrO2-CeO2-Al2O3 catalyst.     

Ni/Al2O3 catalysts for syngas methanation: Effect of Mn promoter

Ni/Al2O3 catalysts with different amounts of manganese ranging from 1 to 3 wt% as promoter were prepared by co-impregnation method. The catalysts were characterized by N2 physisorption, XRD, TPR, SEM and TEM. Their catalytic activity towards syngas methanation reaction was also investigated using a fixed-bed integral reactor. It was demonstrated that the addition of manganese to Ni/Al2O3 catalysts can increase the catalyst surface area and average pore volume, but decrease NiO crystallite size, leading to higher activity and stability. The effects of reaction temperature, pressure and weight hourly space velocity (WHSV) on carbon oxides conversion and CH4 formation rate were also studied. High carbon oxides conversion, CH4 selectivity and formation rate were achieved at the reaction temperature range of 280 300℃.     

超细镍基催化剂上CH4-CO2重整反应的性能Ⅰ.制备方法对催化剂结构和还原性能的影响

通过BET ,XRD ,XPS ,IR和TPR等表征手段 ,考察了制备方法对CH4 CO2 重整用镍基催化剂物性结构和还原性能的影响 .与浸渍的超细载体二元NiO Al2 O3 及浸渍的普通载体三元NiO La2 O3 Al2 O3 催化剂相比 ,采用溶胶 凝胶法和超临界干燥技术制备的超细二元和三元气凝胶超细催化剂具有高表面积、高孔隙率及孔结构可控等特点 ,且组分之间的相互作用强 ,分布均匀 ,较低温度下即可形成NiAl2 O4 尖晶石结构 ,吸附能力强 ,还具有更丰富的表面缺陷和暴露原子数等纳米材料特性 .同时 ,该方法适宜于制备负载多组分金属催化剂 ,有利于发挥助剂的改善调节作用 ,满足CH4 CO2 重整反应对催化剂的要求 .     

流化床甲烷部分氧化制合成气Ni催化剂及助剂La的作用

在流化床中,考察了不同Ni担载量的Ni/γ-Al2O3催化剂对POM反应的催化性能,以8％Ni最佳,TPR结果表明。催化剂表面主要有两种化学状态的NiO。当镍担载量≤2％时,催化剂表面 仅存在一种高温下才能被还原的NiO,在Ni催化剂中添加La,可削弱NiO与载体间的相互作用,并且可减缓在CH4＋O2气氛下升温过程中NiO与载体发生强相互作用 生成NiAl2O4,因此添加La的Ni催化剂在750℃就能引发甲烷部分氧化（POM）反应,且反应引发后可获得与经700℃H2还原后的Ni^0催化剂相同的反应性能。     

K改性NiAl类水滑石衍生复合氧化物催化分解N2O

制备了Ni/Al=4.1(原子比)的NiAl类水滑石,焙烧获得NiAl复合氧化物,浸渍K2CO3溶液制备了K改性NiAl复合氧化物催化剂,其中K/Ni=0.05~0.2(原子比),用于N2O催化分解反应.通过元素分析、XRD、BET、H2-TPR、XPS等技术表征了催化剂的组成结构,考察了NiAl类水滑石的预处理方式、...     

担载镍催化剂上乙炔与甲酸甲酯加氢酯化合成丙烯酸甲酯:担载量和焙烧温度的影响(英文)

以ＮｉＯ担载量为０．０８ｗｔ％～１８．７ｗｔ％及焙烧温度为６２３ Ｋ～８７３ Ｋ的ＮｉＯ／Ａｌ２Ｏ３催化剂进行乙炔与甲酸甲酯的加氢酯化反应,并结合ＴＰＲ、ＸＰＳ、ＸＲＤ和ＢＥＴ技术对催化剂进行表征。催化剂在制备过程中,镍离子与载体氧化铝间的相互作用产生两种不同的镍物种,ＮｉＯ晶相和ＮｉＡｌ２Ｏ４类物种,它们间的比例随担载量及焙烧温度而异,因而表现出其对乙炔与甲酸甲酯加氢酯化不同的反应性能。实验结果表明,在７７３ Ｋ焙烧的１０Ｗｔ％ＮｉＯ／Ａｌ_２Ｏ_３最适合乙炔与甲酸甲酯的加氢酯化反应。     

在甲烷部分氧化制合成气中Pt-Ni/Al_2O_3催化剂中的Pt-Ni协同作用机理(英文)

甲烷部分氧化制合成气的研究是在Ｎｉ／Ａｌ２Ｏ３催化剂上进行的。结果表明,添加少量的Ｐｔ可显著提高甲烷转化率和ＣＯ选择性并增加Ｎｉ／Ａｌ２Ｏ３催化剂的稳定性。通过ＸＲＤ、ＸＰＳ、ＴＰＲ和ＴＰＤ等表征手段发现,Ｐｔ－Ｎｉ／Ａｌ２Ｏ３催化剂中形成了Ｐｔ－Ｎｉ合金,Ｐｔ在催化剂表面富集。分析ＴＰＲ和ＴＰＤ数据可知,Ｐｔ－Ｎｉ双金属的相互作用阻止了催化剂的烧结和Ｎｉ的流失,提高了催化剂的活性。另外,Ｐｔ－Ｎｉ的协同作用也抑制了催化剂表面积炭的产生。     

碱性助剂的添加对Ni/CaO-Al2O3催化剂性能的影响

在CH4、 CO2和O2制合成气的反应中, 通过在Ni/CaO-Al2O3催化剂中添加碱性助剂K2O、 MgO和La2O3, 使催化剂的性能得到了改善. 实验结果表明, MgO和La2O3助剂的添加, 有利于提高催化剂的活性;添加K2O, 却相反. 测得催化剂上积炭量的顺序为: Ni-La2O3/CaO-Al2O3相似文献   

La2O3对Ni/γ-Al2O3甲烷化催化剂的助催化作用

我国将稀土作为助剂引入镍基甲烷化催化剂,大大提高了催化剂的活性和热稳定性,并已投入工业应用［1－3］．稀土对不同镍催化剂反应性能及其作用机理的研究已有一些报导［3－7］．谢有畅等观察到镍负载在经单层La2O3改性的γ－Al2O3表面,其晶粒要比没有La2O3时小得多．Rotgerink等认为添加La后反应速率的增加不只是由于几何效应,而是La对甲烷化本身有促进作用,单位镍表面的活性是随La含量不同而改变的,活性增加的同时表观活化能也增加［5］．作为助剂的La2O3在氢还原和反应过程中的变化及其作用的研究和讨论较少,目前一般认为添…     

NiO-SiO2，NiO-Al2O3和NiO-Al2O3-SiO2催化剂上顺酐选择加氢性能的比较

以正硅酸乙酯和硝酸铝分别为硅源和铝源，硝酸镍为活性组分前驱物，采用溶胶-凝胶法制备了NiO-SiO2，NiO-Al2O3和NiO-Al2O3-SiO2催化剂。顺酐液相选择加氢活性和选择性评价结果表明：顺酐在三种催化剂上转化率都在99%以上，而产物的选择性有较大的差别，其中NiO-SiO2催化剂上γ-丁内酯的选择性达80.1%，NiO-Al2O3催化剂上丁二酸酐选择性达99%以上，NiOAl2O3SiO2催化剂上两种产物都有。XRD，TPR等体相结构和表面结构的表征说明，三种催化剂的相组成、NiO的分散性及与载体的相互作用存在明显差别，这些差别可能是造成不同选择加氢性能的原因。     

制备条件对Ni在Al_2O_3表面上的分配形态及Ni/Al_2O_3体系催化加氢性能的影响

用比表面和孔体积测定、XRD和程序升温还原(TPR)方法研究了一系列不同制备条件对Ni在Al_2O_3表面上的分配形态及其对CO加氢反应催化性能的影响.实验发现,本文所用制备条件对催化剂的比表面、孔体积及孔径分布无显著的影响.浸渍时间愈长,催化剂上能在较低温度下还原的物种愈少,催化剂上CO的加氢活性愈低;在浸渍前对载体作室温抽空处理后制得的催化剂上,Ni在Al_2O_3表面是高度分散的,这一高度分散物种易于在低温下还原,使该催化剂具有很高的CO加氢活性和生成CH_4选择性;载体的抽空温度及对载体加热均对Ni物种形态及其分配、催化剂性能有明显影响.     

钡改性的Ni/γ- Al2O3催化剂用于甲烷部分氧化的研究

800 ℃、80 000 h－1、CH4/O2/N2=14/7/79下比较了质量分数20%的Ni/γ- Al2O3和Ba改性的Ni/γ- Al2O3催化剂，用于甲烷部分氧化反应的活性和选择性。结果表明，Ba的添加提高了镍基催化剂的活性和稳定性。BET和XRD表明，Ba的加入有利于高温焙烧下抑制大颗粒的Ni Al2O4的形成，保持了高比例的活性镍组分，提高了催化剂催化活性。常压下，xCH4接近100%，sCO、sH2达到92.2%和98.1%，催化剂15 h内活性稍微下降。Ba的加入使Al2O3的晶型转化温度由800 ℃提高到900 ℃，提高了载体的稳定性。     

Ni/Al2O3-SiO2催化剂对C4单烯烃加氢的催化性能

利用XRD、H2 TPR和孔结构的分析对C4馏分加氢催化剂Ni/Al2O3 SiO2进行了表征,在固定床反应器内对催化剂的活性进行了评价,并对加氢机理进行了讨论。结果表明,在Ni/Al2O3 SiO2催化剂表面至少存在两种活性中心,分别由体相NiO和高度分散的NiO还原产生。研制的催化剂对C4馏分加氢具有很高的活性和良好的稳定性,进口温度18.6℃时就可进行加氢,属于低温型加氢催化剂。在 C4单烯烃质量分数为74.85%、加氢压力为2.0MPa~2.7MPa、液时空速为1.0h－1~2.0h－1、氢油体积比为 300~450下,原料中单烯烃转化率在98%以上。催化剂连续运行342h,其活性基本保持不变。     

Effect of calcination temperature on structure and performance of Ni/TiO2-SiO2 catalyst for CO2 reforming of methane

The influence of calcination temperature on the structure and catalytic behavior of Ni/TiO2-SiO2 catalyst, for CO2 reforming of methane to synthesis gas under atmospheric pressure, was investigated. The results showed that the Ni/TiO2-SiO2 catalyst calcined at 700 ℃ had high and stable activity while the catalysts calcined at 550 and 850 ℃ had low and unstable activity. Depending on the calcination temperature, one, two, or three of the following Ni-containing species, NiO, Ni2.44Ti0.72Si0.07O4, and NiTiO3 were identified by combining the temperature programmed reduction （TPR） and X-ray diffraction （XRD） results. Their reducibility decreased in the sequence： NiO〉Ni2.44Ti0.72Si0.07O4〉NiTiO3. It suggests that high and stable activities observed over the Ni/TiO2-SiO2 catalyst calcined at 700 ~C were induced by the formation of Ni2.44Ti0.72Si0.07O4 and smaller NiO species crystallite size.     

Effect of Ni loadings on the activity and coke formation of MgO-modified Ni/Al_2O_3 nanocatalyst in dry reforming of methane

MgO-modified Ni/Al2O3 catalysts with different Ni loadings were prepared and employed in dry reforming of methane （DRM）. The effect of Ni loadings on the activity and coke formation of Ni/MgO-A1203 catalysts were investigated. The synthesized catalysts were characterized by XRD, N2 adsorption-desorption, SEM, TPO and TPR techniques. The obtained results showed that increasing nickel loading decreased the BET surface area and increased the catalytic activity and amount of deposited carbon. In addition, the effect of gas hourly space velocity （GHSV） and feed ratio were studied.     

甲烷部分氧化制合成气：Ⅲ.镍系催化剂物性及与催化性能间的关联

使用ＴＰＲ和Ｈ２－ＴＰＤ技术对镍铝系催化剂的还原和氢脱附性能进行了研究，并与其催化性能相关联。结果发现，镍铝系催化剂的氢脱附能力与其催化性能之间有一定联系，脱附氢能力越强，催化剂的甲烷部分氧化反应性能就越好，但催化性能与还原性能无直接关联。     

Methane reforming With CO2 to syngas over CeO2-promoted Ni/Al2O3-ZrO2 catalysts Prepared Via a direct sol-gel process

CeO2-promoted Ni/Al2O3-ZrO2 (Ni/Al2O3-ZrO2-CeO2) catalysts were prepared by a direct sol-gel process with citric acid as gelling agent. The catalysts used for the methane reforming with CO2 was studied by infrared spectroscopy (IR), thermal gravimetric analysis (TGA), microscopic analysis, X-ray diffraction (XRD) and temperature-programmed reduction (TPR). The catalytic performance for CO2 reforming of methane to synthesis gas was investigated in a continuous-flow micro-reactor under atmospheric pressure. TGA, IR, XRD and microscopic analysis show that the catalysts prepared by the direct sol-gel process consist of Ni particles with a nanostructure of around 5 nm and an amorphous-phase composite oxide support. There exists a chemical interaction between metallic Ni particles and supports, which makes metallic Ni well dispersed, highly active and stable. The addition of CeO2 effectively improves the dispersion and the stability of Ni particles of the prepared catalysts, and enhances the adsorption of CO2 on the surface of catalysts. The catalytic tests for methane reforming with CO2 to synthesis gas show that the Ni/Al2O3-ZrO2-CeO2 catalysts show excellent activity and stability compared with the Ni/Al2O3 catalyst. The excellent catalytic activity and stability of the Ni/Al2O3-ZrO2-CeO2 are attributed to the highly, uniformly and stably dispersed small metallic Ni particles, the high reducibility of the Ni oxides and the interaction between metallic Ni particles and the composite oxide supports.     

MgO助剂对甲烷部分氧化Ni/Al2O3催化剂结构和性能的影响

采用分步浸渍法制备了MgO改性的Ni/Al2O3催化剂,采用BET、XRD、H2 TPR、TEM和活性评价等研究方法,考察了MgO助剂对Ni/Al2O3催化剂物化性质和甲烷部分氧化制合成气反应性能的影响。实验结果表明,MgO助剂提高了催化剂镍物种的均一性,抑制了NiAl2O4尖晶石的形成,并且增强了镍物种与载体的相互作用,这与MgO、NiO形成固溶体及与Al2O3形成MgAl2O4有关。同时,适量的MgO助剂可以提高Ni物种在催化剂中分散度,并提高其有效利用率,改性后的催化剂在甲烷部分氧化反应中显示出较好的反应性能。过量的MgO助剂对催化剂的反应性能产生负面影响,MgO的碱性可以促进逆水煤气变换反应,从而导致H2选择性降低和CO选择性提高。