Dehydrogenation of isobutane in the presence of carbon dioxide over supported vanadium oxide catalysts

Summary The dehydrogenation of isobutane to isobutene in the presence of carbon dioxide was carried out over supported vanadium oxide catalysts. The influence of the support on the catalytic performance was investigated. The isobutane conversion and isobutene selectivity in the presence of carbon dioxide were compared with the results obtained during the dehydrogenation reaction in the presence of helium (inert gas). The catalysts were characterized by temperature-programmed techniques (TPR, TPD-NH₃, TPD-CO₂).     

碳催化剂用于异丁烷直接脱氢制异丁烯

异丁烯用途广泛,被认为是除乙烯和丙烯外最重要的基础化工原料.异丁烯的来源主要是石油裂化过程中产生的碳四馏分,但随着对其需求量的逐年增加,分离法已逐渐无法满足,因此异丁烷直接脱氢工艺逐渐受到工业界和学术界的重视.铬系和铂系催化剂是两类传统工业催化体系,但铬对环境污染严重,铂作为贵金属成本较高,而且现有工艺大多存在催化剂稳定性较差需要反复再生的问题.近年来碳材料用于烷烃氧化脱氢反应的研究较多,并表现出较高的活性和稳定性,甚至有研究组提出金属催化剂在反应中快速生成的活性积碳(active coke)可能是真正的催化活性中心.但氧化脱氢反应不同于直接脱氢,需在反应中加入氧气,这在实际生产中会带来一系列问题：考虑到烷烃的爆炸极限,实际应用时反应气必须稀释,这不利于产物的收集;而且氧气会导致反应物过度氧化产生CO和CO2等副产物,也限制了氧化脱氢工艺在工业上的应用和发展.
　　我们研究组将椰壳碳、煤质碳和碳纳米管等碳材料作为催化剂用于催化异丁烷直接脱氢反应,发现碳催化剂表现出较高的催化活性：在625 oC,椰壳碳上异丁烷转化率和异丁烯选择性分别为70%和78%,连续反应3d后仍能维持34%的转化率,且选择性基本不变.与铬基催化剂相比,碳催化剂在稳定性方面表现出更大优势.我们进一步采用N2吸脱附、X射线光电子能谱(XPS)、傅里叶变换红外光谱(FTIR)和场发射扫描电子显微镜(FE-SEM)等手段对反应前后的碳催化剂进行了详细表征. N2吸脱附结果表明,椰壳碳比表面积高达1190.2 m2/g,这可能是其具有较高催化活性的原因;而结合催化剂活性数据,对比反应前后椰壳碳催化剂比表面积和异丁烷转化率可知,两者呈现近乎线性的相关性,进一步证实比表面积大小对碳催化剂催化活性有重要影响. XPS谱图证明椰壳碳在反应前表面除了有少量硅(0.73%)外,不存在金属氧化物等杂质,证实碳材料无需负载氧化物等即可表现出较高的催化活性;反应后沉积的积碳附着在催化剂表面,使硅含量降低至0.47%;催化剂中氧含量也由4.43%降低至3.78%,同时有碳酸盐生成. FTIR谱图进一步证实反应前的椰壳碳表面有丰富的有机官能团,但反应开始后有机官能团很快消失,而催化剂仍保持较高的催化活性,因此有机官能团并非碳催化剂催化活性高的必要因素,这与文献中已报道的结果不同. FE-SEM照片中观察到反应后椰壳碳催化剂表面形成积碳,随着反应时间延长积碳明显增多,这与XPS结果一致.
　　碳材料具有来源广泛、绿色环保等显著优势,可作为一种新的催化体系应用于异丁烷直接脱氢反应,无需负载其他物质或添加氧化性气体即可表现出良好的催化活性和稳定性,其比表面积对催化活性有重要影响,反应中产生的积碳导致催化剂比表面积下降进而降低其催化活性,而有机官能团的存在对催化活性影响不大.     

Coupling dehydrogenation of isobutane in the presence of carbon dioxide over chromium oxide supported on active carbon

The dehydrogenation of isobutane （IB） to produce isobutene coupled with reverse water gas shift in the presence of carbon dioxide was investigated over the catalyst Cr2O3 supported on active carbon （Cr2O3/AC）. The results illustrated that isobutane conversion and isobutene yield can be enhanced through the reaction coupling in the presence of carbon dioxide. Moreover, carbon dioxide can partially eliminate carbonaceous deposition on the catalyst and keep the active phase （Cr2O3）, which are then helpful to alleviate the catalyst deactivation.     

石墨烯负载镍催化CO_2加氢甲烷化

采用改进的Hummers法制备了氧化石墨烯(GO),经水合肼还原得到石墨烯(RGO),通过浸渍法制备了石墨烯负载的镍基催化剂(Ni/RGO);对其催化二氧化碳甲烷化反应的性能进行了研究,并与以碳纳米管(CNTs)和活性炭(AC)为载体负载的Ni基催化剂进行了比较.由于催化剂的载体分别为RGO,CNTs和AC,所以Ni将会表现出不同的形态.利用红外光谱(FTIR)、比表面积(BET)测试、程序升温还原(H2-TPR)、X射线衍射(XRD)分析和透射电子显微镜(TEM)等表征手段对其结构及物理性质进行了表征.结果表明,Ni/RGO具有相对较大的比表面积(316 m~2/g),Ni在Ni/RGO上的颗粒尺寸(5.3 nm)小于其在Ni/CNTs(8.9 nm)和Ni/AC(11.6 nm)上的颗粒尺寸;该催化剂在二氧化碳甲烷化反应中具有更高的催化活性和选择性,而且具有良好的使用寿命.     

预处理方法对Ni-Co双金属催化剂性能与结构的影响

浸渍法制备了Ni-Co/La₂O₃-γ-Al₂O₃双金属催化剂, 经氢气还原预处理后, 再分别由一氧化碳、甲烷和二氧化碳进行再次预处理, 考察了预处理方法对该催化剂上沼气重整制氢性能的影响, 并运用X射线衍射(XRD)、热重-差示扫描量热(TG-DSC)、透射电子显微镜(TEM)等手段对催化剂进行了表征. 结果表明, 与传统氢气还原预处理相比, 经氢气与一氧化碳预处理后, 催化剂性能无明显变化; 经氢气与甲烷预处理后, 催化剂性能明显变差; 而经氢气和二氧化碳预处理后, 催化剂性能明显变优, 且能基本消除该催化剂上沼气重整反应的诱导期. 分析结果表明, 经氢气和二氧化碳预处理后, 催化剂中金属颗粒较小, 分布较均匀, 粒径分布范围较窄, 从而减少了催化剂表面碳的沉积, 增强了催化剂的抗积炭性能, 可延长催化剂的使用寿命.     

Selective Oxidation of Isobutane to Methacrylic Acid over Supported V-Mo-P Based Composite Oxide Catalysts

Heteropolyacid, the most popular catalyst for the direct oxidation of isobutane, exhibits high catalytic activity, poor thermal stability and a short lifetime. Therefore, the catalyst requires further research to improve its performance. Catalysts composed of mixed oxides (V2O5, P2O5, or MoO3) supported on silica were prepared by the sol-gel method to catalyze the reaction. Results of XRD, IR, and BET corroborated that the mixed oxides were dispersed homogeneously on the surface of support. The activity of lattice oxygen in the catalysts was studied by TPR, and the chemisorption property of isobutane on the surface of the catalysts was investigated by the TPD method. H2-TPR of the catalysts revealed that the lattice oxygen of the vanadium-based catalysts is more active than that of the molybdenum-based catalysts. The redox property of V or Mo species is slightly affected by other compositions of the series catalysts. The TPD curves illustrate that there are two kinds of adsorptive species of isobutane on     

Selective Oxidation of Isobutane to Methacrylic Acid over Supported V-Mo-P Based

Heteropolyacid, the most popular catalyst for the direct oxidation of isobutane, exhibits high catalytic activity, poor thermal stability and a short lifetime. Therefore, the catalyst requires further research to improve its performance. Catalysts composed of mixed oxides (V2O5, P2O5, or MoO3) supported on silica were prepared by the sol-gel method to catalyze the reaction. Results of XRD, IR, and BET corroborated that the mixed oxides were dispersed homogeneously on the surface of support. The activity of lattice oxygen in the catalysts was studied by TPR, and the chemisorption property of isobutane on the surface of the catalysts was investigated by the TPD method. H2-TPR of the catalysts revealed that the lattice oxygen of the vanadium-based catalysts is more active than that of the molybdenum-based catalysts. The rcdox property of V or Mo species is slightly affected by other compositions of the series catalysts. The TPD curves illustrate that there are two kinds of adsorptive species of isobutane on the surface of the V and Mo based catalysts. The adsorbing species on the VMoP/SiO2 catalyst are identical to the main adsorbing species on VP/SiO2 and MoP/SiO2. The catalyst VMoP/SiO2 is more active than others in the selective oxidation of isobutane.     

Dehydrogenation of isobutane with carbon dioxide over a vanadium-magnesium oxide catalyst

The activity of the vanadium-magnesium oxide catalyst was tested in the reaction of isobutane dehydrogenation reaction in the presence and absence of carbon dioxide. The data were compared with the results obtained in the Boudouard and the reverse water gas shift reactions. It has been found that carbon oxide is produced with both RWGS reactions coupled with the simple dehydrogenation of isobutane (i.e., two-step pathway) and the one-step oxidative dehydrogenation reaction.     

水热法制备Ni-Sm/SiC催化剂甲烷二氧化碳重整性能的研究

通过水热法制备了Ni-Sm/SiC催化剂（Ni的含量固定为9%，钐的含量固定为5%）。采用XRD、BET、ICP、H₂-TPR、TG-DTA和TEM等技术对催化剂进行表征。对催化剂在甲烷二氧化碳重整反应中的催化活性、不同镍前驱体的影响、催化剂的积炭行为进行了研究。研究结果表明，水热法制备的Ni-Sm/SiC催化剂有着优异的催化活性、稳定性和抗积炭能力。不同镍前驱体对催化剂的性能没有影响。     

二氧化碳甲烷化Ni－Ru－稀土／ZrO_2催化剂的活性研究

用浸渍法制备了一系列的Ｎｉ－Ｒｕ稀土／ＺｒＯ_２三组份担载型二氧化碳甲烷化催化剂，并利用固定床反应器对其催化性能进行了研究。实验结果表明，添加稀土后的三组份催化剂具有较高的催化活性，含稀土催化剂的活性与稀土离子的４ｆ电子数有关，稀土元素的磁性对催化剂性能有一定影响，不同催化剂的反应表观活化能大小次序与催化剂活性次序相符。     

水热法合成的MoVTeNbOx多组分氧化物催化剂上异丁烷的选择氧化

采用水热法合成了MoVTeNbOx多组分氧化物催化剂, 并用XRD, ICP, BET和SEM等方法对催化剂进行了表征, 考察了MoVTeNbOx多组分氧化物催化剂的组成、反应温度和空速对异丁烷选择氧化反应性能的影响. 其中组成为MoV0.3Te0.17Nb0.12Ox的催化剂显示出最好的催化活性和选择性, 在673 K下, 异丁烷的转化率为10.8%, 甲基丙烯醛(MAL)和甲基丙烯酸(MAA)的收率累积达到6.5%.     

高稳定度CH4/CO2重整Ni/MgO催化剂的研究

用TPR,TPD,TPO,TPMC(程序升温CH₄解离积炭)和活性评价等手段研究了普通浸渍法与载体盐助分散浸渍法制得的CH₄/CO₂重整制合成气Ni基催化剂的性能.结果表明,用载体盐助分散浸渍制备的催化剂Ni-O-Mg间作用较强,吸附CO₂能力较大,CH₄解离积炭量少,因此其稳定性及寿命较好.     

CO2加氢合成二甲醚的催化剂的制备

先采用均匀沉淀法制备出CuO—ZnO催化剂,然后以CuO—ZnO催化剂作为晶核采用水热合成法制备出CuO—ZnO／HZSM-5（氢型ZSM-5分子筛）复合催化剂．利用X射线衍射和氨程序升温脱附手段对复合催化剂进行表征,并应用于CO2催化加氢合成二甲醚的反应．研究结果表明,在相同的反应条件下,这种CuO—ZnO／HZSM-5复合催化剂与采用物理混合法制备出的复合催化剂相比具有更好的催化效果,不但提高了CO2的转化率、二甲醚的选择性以及二甲醚和甲醇的总选择性,同时还改善了催化剂的稳定性．     

KOH/4A分子筛催化剂对环氧丙烷、二氧化碳和甲醇合成碳酸二甲酯反应的催化性能

 首次开发出对环氧丙烷、二氧化碳和甲醇合成碳酸二甲酯反应具有较高活性和稳定性的KOH/4A分子筛固体催化剂,考察了反应温度和催化剂活性组分KOH的负载量等因素对催化剂性能的影响. 在优化的实验条件下,环氧丙烷可以完全转化,碳酸二甲酯的收率为168%. 从实验结果推测,产物碳酸二甲酯是由环氧丙烷和二氧化碳加成生成碳酸丙烯酯,然后与甲醇发生酯交换反应生成的,甲醇对环氧丙烷和二氧化碳合成碳酸丙烯酯反应具有助催化作用.     

钡改性对Cr_2O_3/Al_2O_3催化剂异丁烷脱氢性能的影响

采用浸渍法制备了不同BaO负载量的Cr_2O_3/Al_2O_3催化剂,利用XRD、BET、NH3-TPD和O2-TPO等表征方法对钡改性前后的催化剂进行了分析;在反应温度560℃、反应压力0.1MPa、催化剂用量10mL、GHSV=400h-1的条件下,在固定床反应器上考察了其异丁烷脱氢反应的性能。结果表明,钡的引入影响了活性组分Cr2O3的分散,导致了催化剂比表面积的降低,但影响并不显著;钡的引入降低了催化剂表面的酸性、减少了反应过程中催化剂的积炭,改善了催化剂的选择性,提高了催化剂的稳定性。当BaO负载量为3%时,催化剂的性能最佳。     

Effects of Ce/Zr ratio on the structure and performances of Co-Ce_（1-x）Zr_xO_2 catalysts for carbon dioxide reforming of methane

The Co-incorporated Ce1-xZrxO2 catalysts were prepared by co-precipitation for carbon dioxide reforming of methane. The ratio of Ce to Zr was varied to optimize the performances of co-precipitated Co-Ce-Zr-Ox catalysts. The prepared catalysts were characterized by various physico-chemical characterization techniques including TPR, X-ray diffraction, N2 adsorption at low temperature, XPS and CO2-TPSR. The co-precipitated Co-Ce0.8Zr0.2O2 sample containing 16% CoO exhibited a higher catalytic activity among the five catalysts, and the activity was maintained without significant loss during the reaction for 60 h. Under the conditions of 750 ℃, 0.1 MPa, 36000 ml/(h·g{cat}), and CO2/CH4 molar ratio of 1 : 1, the CO2 conversion over this catalyst was 75% while the CH4 conversion was 67%. The cubic Ce0.8Zr0.2O2 facilitated a higher dispersion and a higher reducibility of the cobalt component, and the apparent activation energy for Co-Ce0.8Zr0.2O2 sample was 49.1 kJ/mol in the CO2/CH4 reforming reaction. As a result, the Co-Ce0.8Zr0.2O2 sample exhibited a higher activity and stability for the reforming of CH4 with CO2.     

Phosphated ceria,selective catalysts for oxidative dehydrogenation of isobutane

The oxidative dehydrogenation (ODH) of isobutane over pure ceria and phosphated ceria catalysts, containing two different amounts of phosphorus, was examined at temperatures ranging from 450 to 610 °C. The catalysts were characterized using nitrogen adsorption, DRX, SEM, EDX, XPS and TPR techniques. Adding phosphorus to ceria and increasing the phosphorus content results in a modification of the physicochemical characteristics of the catalyst, the redox ability of the catalytic material being strongly diminished. At the same time, by adding phosphorus to ceria and increasing the phosphorus content, a decrease of the catalytic activity accompanied by an important increase of the selectivity for isobutene, mainly at the expense of carbon oxides, was observed. A compensation effect in catalysis was also observed for the isobutane conversion on this series of catalysts.     

NiO/Al_2O_3催化剂上二氧化碳气氛下异丁烷耦合脱氢制异丁烯

研究了二氧化碳气氛下NiO/Al2O3催化剂上异丁烷脱氢制异丁烯的反应性能,考察了助剂K2O对NiO/Al2O3催化性能的影响。结果表明,与在惰性气氛下的反应相比,在二氧化碳气氛下异丁烷脱氢与逆水煤气变换反应耦合,促进了异丁烷脱氢反应,异丁烯的收率得到提高。助剂K2O的加入,能降低催化剂的酸性,减缓反应过程中催化活性物种NiO的过度还原,并抑制异丁烷裂解及积炭生成等副反应,从而提高了异丁烯的收率以及催化剂的稳定性。     

Fe含量对Fe-Zn-M/HY复合催化剂上CO2加氢性能的影响

在340 ℃，5.0 MPa条件下，研究了Fe-Zn-M/HY(M=Cr、Al)复合催化剂上CO2的加氢性能。考察了催化剂中Fe含量对CO2转化率、烃类产物及异构烷烃选择性的影响, 并用CO2-TPD、H2-TPR研究了Fe-Zn-M对CO2的吸附和对H2的还原性能。结果表明, 随着Fe含量的增加, 复合催化剂的活性增强, 烃类产物的选择性降低, 异构烷烃在烃类中的选择性随Fe含量的增加而降低，CO2-TPD、H2-TPR结果表明，随Fe含量的增加，催化剂对CO2的活化吸附量随之增加, 而Fe含量的增加促进了催化剂的还原。     

Methanation of carbon dioxide on Ni/ZrO2-Al2O3 catalysts:Effects of ZrO2 promoter and preparation method of novel ZrO2-Al2O3 carrier

The novel nickel-based catalysts with a nickel content of 12 wt% were prepared with the zirconia-alumina composite as the supports. The new carriers, ZrO2 improved alumina, were synthesized by three methods, i.e., impregnation-precipitation, co-precipitation, and impregnation method. The catalytic properties of these catalysts were investigated in the methanation of carbon dioxide, and the samples were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscope (XPS), temperature-programmed reduction (TPR) and temperature-programmed desorption (TPD) techniques. The new catalysts showed higher catalytic activity and better stability than Ni/γ-Al2O3. Furthermore, as a support for new nickel catalyst, the ZrO2-Al2O3 composite prepared by the impregnation-precipitation method was more efficient than the other supports in the methanation of carbon dioxide. The highly dispersed zirconium oxide on the surface of γ-Al2O3 inhibited the formation of nickel aluminate-like phase, which was responsible for the better dispersion of Ni species and easier reduction of NiO species, leading to the enhanced catalytic performance of corresponding catalyst.