La-Ba-Sn(Sm,Ce)体系催化剂上的甲烷氧化偶联

报道了La-Ba-Sn(sm,Ce)体系催化剂上甲烷氧化偶联反应(OCM)的催化性能.实验结果表明:第三组分Sn、Sm、Ce的添加显著提高了OCM催化活性和C₂烃选择性.不同催化剂制备方法对催化活性的影响不同,混浆法低温焙烧有利于低温OCM反应;干混法高温焙烧能在最佳OCM反应条件下获得较高的C₂烃收率和选择性.     

稀土氧化物对甲烷在Li—碱土金属氧化物催化剂上氧化偶联反应的影响

在Li—碱土金属氧化物催化剂的基础上研究了分别添加稀土氧化物(La,Ce,Pr,Nd,Sm)对甲烷氧化偶联反应的影响。结果表明:稀土氧化物的添加有助于提高C_2的选择性,其原因可能是稀土有利于甲基自由基的稳定。     

甲烷氧化偶联催化剂Li/MgO的结构及表面性质的研究

本文用XRD、TEM、XPS和荧光光谱等方法研究了一组不同Li~+含量的Li/MgO催化剂的结构及表面性质,并与它们的氧化偶联甲烷的催化性能相关联。结果表明,低配位O~(2-)(O_(3c)~(2-))是使甲烷活化的活性中心。O_(1s)结合能为531.9eV的氧物种是对甲烷氧化偶联反应的C_2选择性起作用的活性氧物种。     

Oxidative Coupling of Methane over Lithium Doped （Mn＋W）/SiO2 Catalysts

Modification and performance of Li induced silica phase transition of (Mn W)/SiO2 catalyst, under reaction conditions of oxidative coupling of methane (OCM), have been investigated employing textural characterizations and redox studies. Stability and precrystalline form of fresh Li induced silica phase transition catalyst depend on the Li loading. A catalyst, with high lithium loading, destabilizes on OCM stream. This destabilization is not due to Li evaporation at OCM reaction conditions.α-cristobalite is proposed to be an intermediate in the crystallization of amorphous silica into quartz in the Li-induced silica phase transition process. However, the type of crystalline structure was found to be unimportant with regard to the formation of a selective catalyst. Metal-metal interactions of Li-Mn, Li-W and Mn-W, which are affected during silica phase crystallization, are found to be critical parameters of the trimetallic catalyst and were studied by TPR. Role of lithium in Li doped (Mn W)/SiO2 catalyst is described as a moderator of the Mn-W interaction by involving W in silica phase transition. These interactions help in the improvement of transition metal redox properties, especially that of Mn, in favor of OCM selectivity.     

甲烷氧化偶联制乙烯Li—ZrO2,Li—La2O3催化剂的研究

研究了添加Li的La_2O_3和ZrO_2两种催化剂对甲烷氧化偶联催化性能的影响,并用XRD,LRS和XPS等方法对催化剂进行了表征。结果表明,Li~+的加入提高了催化剂的C_2选择性,但两类催化剂上Li~+的添加作用机制不同。La_2O_2加入Li~+达40mol％时,样品可获得34.4％的甲烷转化率和60.4％的C_2选择性。Li~+在La_2O_3表面分散,表面O/(Li+La)比随Li~+添加量增加而下降。催化剂对C_2选择性的提高可能是因为Li~+覆盖了La_2O_3表面部分完全氧化中心所致。ZrO_2中添加Li~+有Li_2ZrO_3生成,75mol％Li-ZrO_2仅检测到Li_2ZrO_3晶相,该样品可得34％甲烷转化率和63％C_2选择性。样品的XRD及XPS研究表明,随Li~+加入量增加,表面Li/Zr比接近2:1,没有Li的富集,样品表面存在两种氧物种,其O_1s结合能分别为530.3和531.9eV。对75mol％Li—ZrO_2样品,后者占95％,该表面氧物种可能与C_2选择性提高有关。     

Na2SnO3系催化剂在甲烷氧化偶联反应中的催化性能及表面碱性的探讨

1982年Keller和Bhasin以金属氧化物为催化剂从甲烷制得少量乙烯和乙烷的工作引起了各国研究工作者的重视,此后报道了许多有研究价值的催化剂,其中添加碱金属对提高催化性能所起的作用引起了普遍的关注.Lunsford等首先用添加Li~+的MgO作催化剂,发现催化剂表面碱性增强的同时,生成C_2烃类产物的选择性明显增加.随后Iwamatu等在MgO中添加Na~+及Rb~+盐,Jones等在Mn~(4+)/SiO_2中添加Na~+,Otsuka等在Sm_2O_3中添加LiCl作为甲烷氧化偶联催化剂进行了研究,这些结果均表明,因添加碱金属使催化剂呈现     

CaO／La2O3催化剂电导性质与催化性质的研究

碱土金属氧化物及稀土金属氧化物对甲烷氧化偶联(OCM)均有较好的催化活性,前者具有较强的碱性,后者具有较好的稳定性,而且是产生甲基自由基的活性材料。Becker在较大范围内调变了CaO-La_2O_3的组成,研究了其反应活性及表面酸碱性的关系。结果表明,混合氧化物生成C_2烃的选择性比La_2O_3纯相氧化物的高,据此推测在La_2o_3和CaO间存在一种相互作用,有利于提高C_2烃的选择性。为进一步研究这种二元催化剂的相互作用,我们在较小范围内对La_2o_3进行了调变,通过对其电导、结构及催化性质的研究发现,少量CaO掺杂使C_2烃选择性提高的原因在于有部分Ca~(2+)进入了La_2O_3晶格,产生了O~-离子物种。 1 实验部分 1.1 催化剂合成 采用硝酸盐混合溶解、673K热分解、1373K高温焙烧的方法制备CaO/La_2O_3(记为XLEC)催化剂。根据所含CaO的摩尔百分数0、1、3、5、7、100,分别将其标记为XLEC0、XLEC1、XLEC3、XLEC5、XLEC7、XLECaO。 1.2 活性表征 反应在常压固定床石英反应器内完成,CH_4:O_2=4:1(总流速100mL/min),催化剂40～60目,用量0.2g。产物用2305型氢火焰检测器分析。 1.3 仪器及测试条件 XRD谱及晶胞参数测定在DMAX—Ⅱ型衍射仪上完成,使用CuKα射线辐射。Raman光谱应用SPEX-1403双光栅拉曼光谱仪,光源为A     

甲烷在MnOx／SiO2催化剂上氧化偶联反应的研究

本文研究了催化剂MnOx/SiO_2在改进为连续进料反应条件下的催化活性及其催化反应机理.实验结果表明;锰负载量升至10(Wt)%时,甲烷转化率和C_2选择性均最高;进一步增大锰负载量时,催化剂中Mn_3O_4晶相形成,此时催化活性开始下降,说明催化剂中形成的硅酸锰盐与甲烷氧化偶联反应直接关联.反应初期,催化反应活性较高,但C_2选择性较低,反应几小时后,活性有所下降,但C_2选择性提高,最后.活性和选择性趋近稳定.进一步研究表明:催化剂中Mn~(2+)配位环境从反应前的八面体中介场转变为四面体强场,而且催化剂中Mn~(2+)浓度增大约100倍,说明Mn~(2+)浓度提高有利C_2选择性提高.反应稳定后的催化剂表面观察到Carbide(282.9 eV)和CHx(a)(X=0-3)(284.5 eV)碳物种存在,说明甲烷在催化剂表面吸附并分解:CH_4(g)→CH_3(a)→一CH_2(a)→→→Carbide,并讨论了甲烷通过CHx(a)在催化剂表面上迁移,直接偶联生成乙烯(X=2)和乙烷(X=3)的可能性.     

在甲烷氧化偶联反应中碱、碱土、稀土金属氧化物之间的相互作用 Ⅰ.含锂氧化物催化剂表面锂的作用

报导了表面相Li在甲烷氧化偶联反应中的作用。应用XRD,SEM,ESR及IR-PAS等技术对Li-Mn-Mg-O催化剂体系表面相的组成、结构及活性进行了测试,发现C_2产物的生成量同表面相Li的含量有较好的对应关系。同时发现含Li催化剂的失活同表面相Li的流失有密切的关系。表面Li的流失可借助体相Li在适当温度下扩散得到补充,但这种补充也是很有限的。     

低温甲烷氧化偶联纳米SrTi_(0.975)Li_(0.025)O_(3-δ)催化剂的原位ESR和TPSR表征

采用溶胶-凝胶法制备纳米钙钛矿型复合氧化物催化剂SrTi1-xLixO3-δ(x=0、0.025、0.050),用微型催化反应评价装置结合XRD、TEM、原位ESR和程序升温表面反应(TPSR)等方法,研究甲烷氧化偶联(OCM)纳米SrTi1-xLixO3-δ催化剂结构和催化性能。结果表明,B位掺杂适量的低价Li+离子可优化纳米SrTiO3催化剂低温(~650℃)甲烷氧化偶联催化性能,Li+掺杂量为0.025时获得最高的甲烷转化率和C2选择性。与柠檬酸法制相同组成的常规催化剂相比,SrTi0.975Li0.025O3-δ纳米催化剂具有较优良的低温OCM催化性能和相同温度下更高的C2选择性。SrTi0.975Li0.025O3-δ纳米催化剂优良的催化性能与其表面原子配位不饱和存在F中心相关。     

Oxidative coupling of methane over La-promoted CaO catalysts： Influence of precursors and catalyst preparation method

The oxidative coupling of methane to C2 hydrocarbons has been studied over a series of La-promoted CaO (La/Ca = 0.05) catalysts, prepared using different precursor salts for CaO and La2O3 (viz. acetates, carbonates, nitrates and hydroxides) and catalyst preparation methods (viz. physical mixing of precursors, co-precipitation using ammonium carbonate/sodium carbonate as a precipitating agent), under different reaction conditions (temperature: 700-850℃, CH4/O2 ratio: 4.0 and 8.0, and GHSV: 51360 cm3 g-1 h-1)...     

原位FT-IR研究甲烷和氧与SrO-La_2O_3/CaO催化剂表面的相互作用和反应(英文)

用原位FT－IR研究了甲烷和氧与纯CaO,La_2O_3和SrO氧化物以及LC和SLC催化剂的相互作用和反应．当不存在气相氧时,引入的甲烷与表面晶格氧反应生成碳酸盐物种。在室温或高温下,在这些氧化物和催化剂上不能检测到CH_4或O_2的吸附物类。但是,当CH_4和O_2同时存在时,在La_2O_3和LC催化剂上能检测到1118cm~－1的新谱带、这一谱带可能来自于表面碳酸盐在高温下氧气氛中的分解,并可归属为物种。甲烷与这一活性氧物种反应生成C_2H_4。但对SLC催化剂,在高温下不能检测到物种,而甲烷和氧在高温下反应也能产生表面碳酸盐并在气相中形成乙烯,这就表明,气相氧对这些催化剂也起着关键作用,但是在LC和SLC催化剂上甲烷氧化偶联反应可能有本质上的差别。     

Screening of MgO——and Ce02-Based Catalysts for Carbon Dioxide Oxidative Coupling of Methane to C2＋ Hydrocarbons

The catalyst screening tests for carbon dioxide oxidative coupling of methane (CO2-OCM)have been investigated over ternary and binary metal oxide catalysts.The catalysts are prepared by doping MgO-and CeO2-based solids with oxides from alkali(Li2O),alkaline earth (CaO),and transition metal groups (WO3 or MnO).The presence of the peroxide (O2^2-)active sites on the Li2O2,revealed by Raman spectroscopy,may be the key factor in the enhanced performance of some of the Li2O/MgO catalysts.The high reducibility of the CeO2 catalyst,an important factor in the CO2-OCM catalyst activity,may be enhanced by the presence of manganese oxide species. The manganese oxide species increases oxygen mobitity and oxygen vacancies in the CeO2 catalyst.raman and Fourier Transform Infra Red (FT-IR)spectroscopies revealed the presence of lattice vibrations of metal-oxygen bondings and active sites in which the peaks carresponding to the buld crystalline structures of Li2O,CaO,WO2 and MnO are detected.The performance of 5%MnO/15?O/CeO2 catalyst is the most potential among the CeO2-based catalysts,although lower than the 2%Li2O/MgO catalyst.The 2%Li2O/MgO catalyst showed the most promising C2 hydrocarbons selectivity and yield at 98.0%and 5.7%,respectively.     

Screening of MgO- and CeO_2-Based Catalysts for Carbon Dioxide Oxidative Coupling of Methane to C_(2+) Hydrocarbons

The catalyst screening tests for carbon dioxide oxidative coupling of methane (CO2-OCM) have been investigated over ternary and binary metal oxide catalysts. The catalysts are prepared by doping MgO- and CeO2-based solids with oxides from alkali (Li2O), alkaline earth (CaO), and transition metal groups (WO3 or MnO). The presence of the peroxide (O2-2) active sites on the Li2O2, revealed by Raman spectroscopy, may be the key factor in the enhanced performance of some of the Li2O/MgO catalysts. The high reducibility of the CeO2 catalyst, an important factor in the CO2-OCM catalyst activity, may     

Experimental investigation of fluidized-bed reactor performance for oxidative coupling of methane

Performance of the oxidative coupling of methane in fluidized-bed reactor was experimentally investigated using Mn-Na2WO4/SiO2,La2O3/CaO and La2O3-SrO/CaO catalysts.These catalysts were found to be stable,especially Mn-Na2WO4/SiO2 catalyst.The effect of sodium content of this catalyst was analyzed and the challenge of catalyst agglomeration was addressed using proper catalyst composition of 2%Mn2.2%Na2WO4/SiO2.For other two catalysts,the effect of Lanthanum-Strontium content was analyzed and 10%La2O 3-20%SrO/CaO catalyst was found to provide higher ethylene yield than La2O3/CaO catalyst.Furthermore,the effect of operating parameters such as temperature and methane to oxygen ratio were also reviewed.The highest ethylene and ethane (C2) yield was achieved with the lowest methane to oxygen ratio around 2.40.5% selectivity to ethylene and ethane and 41% methane conversion were achieved over La2O3-SrO/CaO catalyst while over Mn-Na2WO4 /SiO2 catalyst,40% and 48% were recorded,respectively.Moreover,the consecutive effects of nitrogen dilution,ethylene to ethane production ratio and other performance indicators on the down-stream process units were qualitatively discussed and Mn-Na2WO4/SiO2 catalyst showed a better performance in the reactor and process scale analysis.     

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   

K＋－SrO－La_2O_3／ZnO催化剂上甲烷氧化偶联反应Ⅰ．催化活性和反应气中添加CO_2的影响

Ｋ＋┐ＳｒＯ┐Ｌａ２Ｏ３／ＺｎＯ催化剂上甲烷氧化偶联反应＊Ⅰ．催化活性和反应气中添加ＣＯ２的影响余林徐奕德＊＊郭燮贤（中国科学院大连化学物理研究所催化基础国家重点实验室，大连１１６０２３）关键词钾离子，氧化锶，氧化镧，氧化锌，金属氧化物催化剂，甲烷，...     

利用Eu3+荧光特性研究CaO-La2O3催化剂结构

近年来，利用稀土窝子荧光特性作为探针研究无机、有机、生物大分子结构，日益引起人们的注意．因为稀土荧光特征可以灵敏地反映发光离子近部环境的对称性、所处格位及不同对称性的格位数、有无反演中。心等结构信息[1]．由于Eu3＋离子基态能级7F0和主要的发射能级5D0的总角动量数J都为零，不被晶体场所劈裂，而且Eu3＋在不同点群对称性时，7FJ（J＝1，2，3，4，5，6）的能级劈裂数和5D0→7FJ的跃过数均有报导[2]，所以，Eu3＋可用于探针分析减土金属氧化物和稀土金属氧化物都是甲烷氧化倡联较好的催化剂．前者具有较强的碱性，后者具…     

甲烷在SrO-La_2O_3/CaO催化剂上的氧化偶联 Ⅰ.SrO对La_2O_3/CaO催化剂的助催化作用

在常压流动反应装置上评价了一系列La_2O_3/CaO催化剂和SrO-La_2O_3/CaO催化剂。实验表明:La_2O_3/CaO体系是很好的甲烷氧化偶联催化剂。在1073K和CH_4:O_2:He=4:1:5(总流速120ml/min)的实验条件下,20％La_2O_3/CaO催化剂上的甲烷转化率为26％,C_2选择性为53％;加入助剂SrO(15—20％)后,在同样实验条件下,甲烷转化率为29％,C_2选择性为66％。表明SrO对La_2O_3/Cao催化剂有明显的促进作用。用XRD,XPS和TPD(CO_2-TPD和O_2-TPD)技术表征了SrO-La_2O_3/CaO催化剂体系,结合反应评价结果,认为SrO的促进作用可以归结为:(1)调变了催化剂的碱性强度分布,提高了催化剂表面强碱中心的数目;(2)提高了La_2O_3的分散度;(3)抑制了催化剂的低温氧吸附物类。