废水中偏二甲肼在Ni/Fe催化剂上的催化分解研究

研究了Ni/Fe催化剂对废水中偏二甲肼臭氧化分解的催化作用,考察了组分含量、体系的pH值和偏二甲肼初始浓度对催化反应的影响.结果表明,Ni/Fe催化剂对水中偏二甲肼的臭氧化具有良好的催化活性.催化剂组分含量、体系的pH值和初始浓度对反应的影响程度不大.对催化剂的XRD表征结果表明,催化剂主要由尖晶石结构的铁酸盐和FeNi3合金相组成,催化剂的良好催化性能与催化剂中尖晶石结构的铁酸盐和FeNi3合金相的形成有关.     

CuZnNi催化剂乙醇部分氧化制氢的研究

采用共沉淀法,制备了一系列CuZn、CuZnNi催化剂,考察了其对乙醇部分氧化制氢的性能;并通过XRD、TPR等手段,对催化进行了表征。实验结果表明,O2/C2H5OH比和反应温度对催化剂的性能有很大的影响,CuZnNi催化剂比不含Ni的CuZn催化剂表现出现更高的活性和选择性。     

Cu/Zn、Cu/Zn/Ni催化剂甲醇部分氧化制氢

研究了甲醇在Cu/Zn及Cu/Zn/Ni催化剂上部分氧化热耦合裂解制氢的反应,系 统地考察了不同O2/CH3OH比及反应温度下催化剂性能.当O2/CH3OH=0.2时,催化剂的性能最 佳.在同样条件下, Cu/Zn催化剂对CO的选择性较Cu/Zn/Ni催化剂低,更具优势. Cu/Zn催化 剂用于甲醇部分氧化反应时,甲醇转化率在150 h寿命实验中基本保持在90％左右. XRD谱图 表明Cu/Zn合金的生成是导致Cu/Zn系催化剂在甲醇裂解反应中快速失活的主要原因,而在部 分氧化反应中, O2的存在可抑制Cu/Zn合金的生成,使Cu/Zn催化剂表现出高度的稳定性.     

Effects of Zn promoter on the structure and Fischer-Tropsch performance of iron catalyst

采用低温N2吸附、XRD、MES、CO-TPR和H2-DTG研究了Zn(100 gFe/x gZn,x=7～100)助剂对Fischer-Tropsch(F-T)合成Fe基催化剂的织构性质、还原行为以及相变结构的影响；在H2/CO=2.0、260℃、1.5 MPa和4000 mL/(g·h)条件下在固定床反应器上考察了Zn助剂含量对Fe基催化剂F-T合成反应活性、烃产物选择性和运行稳定性的影响.研究结果表明,随着Zn含量的增加,氧化态催化剂的物相由α-Fe2O3和ZnFe2O4逐渐向ZnFe2O4和ZnO转变,ZnFe2O4在催化剂中优先生成,只有在超出其计量比1∶2之后才有ZnO出现.由于ZnFe2O4较为稳定,能够促进催化剂中Fe物相的分散,导致比表面积增加.在还原和反应态催化剂中,ZnFe2O4一方面抑制催化剂的过度还原和碳化；另一方面表现为稳定活性相铁碳化物.催化剂的F-T反应性能评价结果表明,纯铁催化剂由于铁碳化物氧化而迅速失活,而Zn助剂催化剂却由于ZnFe2O4的稳定作用,活性较为稳定.同时,由于催化剂在反应初相变的影响,导致Zn助剂催化剂的初始烯烃选择性随着Zn含量的增加而增加,在相态稳定之后选择性趋于一致.     

乙醇水蒸气重整制氢催化剂Ni/Al2O3的研究

采用壳多糖螯合、浸渍法制备出Ni/Al2O3催化剂,并用BET、XRD、TG等方法对催化剂的性能、结构进行表征.通过在常压固定床流动体系中进行乙醇水蒸气重整制氢反应,讨论和评价了催化剂的性能.结果表明,10%Ni/Al2O3催化剂对乙醇水蒸气重整制氢表现出较好的活性.在反应温度高于500℃、水醇比为3∶1时,乙醇转化率100%,H2选择性在68%以上,增大水醇比可使H2选择性适度提高.     

载体对镍催化剂催化乙醇水蒸气重整制氢反应性能的影响

 采用等量浸渍法制备了不同载体负载的镍催化剂,考察了载体对催化剂催化乙醇水蒸气重整制氢反应性能的影响. 结果表明,在650 ℃和101.3 kPa下,不同载体负载的催化剂上乙醇的转化率都接近100%,但选择性相差很大,选择性大小顺序为: ZnO≈La2O3＞CeO2＞MgO＞γ-Al2O3＞TiO2＞ZrO2＞硅胶＞硅藻土. TPR和XRD结果表明,除TiO2外,各载体负载的催化剂的主要物相中都包括NiO相,其对催化剂的活性起重要作用,而Ni与载体的相互作用程度影响催化剂的选择性. 当相互作用较弱,活性组分基本以NiO相存在时,催化剂的选择性较低;当相互作用太强,不存在NiO相时,催化剂的活性和选择性都很低; 当相互作用较强,部分Ni与载体作用生成新物相且与NiO相共存时,催化剂的活性和选择性最高.     

Co/Fe催化剂乙醇裂解和部分氧化制氢研究

采用共沉淀法制备的Co/Fe催化剂催化乙醇裂解和部分氧化制氢反应，考察了反应温度对两种途径反应的影响。结果发现，Co/Fe催化剂对乙醇部分氧化制氢显示出较高的氢选择性，且稳定性较好；该催化剂对乙醇裂解制氢也具有较高的氢选择性，但其稳定性很很差。XRD表征结果表明，在催化乙醇部分氧化反应后，Co70Fe30催化剂中存在CoFe合金和CoO相；而催化乙醇裂解反应后，Co70Fe30催化剂中仅存在CoFe合金，即CoFe合金可能是裂解反应的活性组分。     

Ni-Fe/La2O2CO3催化乙醇水蒸气重整制氢的研究

采用La2(CO3)3空气焙烧法制备了La2O2CO3载体、采用浸渍法制备了Ni,Fe不同比例的Ni-Fe双金属催化剂及Ni/La2O2CO3,Fe/La2 O2 CO3催化剂,考察了各催化剂从300～700℃催化乙醇水蒸气重整反应的性能,并用BET,XRD,TPR等技术对催化剂进行表征。结果表明,相对单一金属催化剂,Ni-Fe双金属催化剂均表现出更高的活性,这可能是因为高分散的Ni,Fe和LaFeyNi1-yO3的共存作用。其中Ni含量为10%,Fe含量为5%时的Ni-Fe/La2O2CO3表现出最高的活性,400℃时乙醇的转化率为100%,H2的选择性最高达到94.1%,而CO的选择性则低至1.2%。     

Cr 助剂对 Fe 基催化剂结构和费托合成性能的影响

 采用 N2 吸附-脱附、X 射线衍射、穆斯堡尔谱、X 射线光电子能谱、程序升温还原和热重分析等技术研究了助剂 Cr 含量对 Fe 基费托合成催化剂的织构性质、还原行为以及物相变化的影响. 在 H2/CO = 2.0, 260~300 oC, 1.5 MPa 和 2 000 ml/(g•h) 条件下, 在固定床反应器中考察了 Cr 含量对 Fe 基催化剂费托合成反应活性和产物烃选择性的影响. 结果表明, 在氧化态催化剂中, Cr 助剂与 Fe 物相存在较强的相互作用, 形成固溶体相 α-(Cr1-xFex)2O3; 随着 Cr 含量的增加, 逐渐由单一的富 Fe 相 α-(Fe1-xCrx)2O3 向富 Fe 相和富 Cr 相 α-(Cr1-yFey)2O3 两相过渡. Fe-Cr 固溶体的生成显著抑制了催化剂的还原, 导致催化剂还原度降低, 因而催化剂活性下降. 同时, Cr 的添加提高了甲烷和轻质烃选择性, 但抑制了水煤气变换活性.     

三缺位Keggin型磷钨杂多酸盐高选择性催化氧化环己烯

利用三缺位Keggin型杂多酸[A-α-PW9O34]9-和[(FeШ(OH2)2)3(A-α-PW9O34)2]9-的四丁基铵盐做为催化剂,H2O2做为氧化剂催化环己烯氧化反应. 考察了反应时间、H2O2与环己烯的摩尔比,催化剂的用量等因素对反应结果的影响. 结果表明：在1, 2-二氯乙烷为10 mL,H2O2 (30 %)与环己烯的摩尔比为2,反应温度为35 oC,反应时间为6 h,[(C4H9)4N]9[A-α-PW9O34]为催化剂的条件下,环己烯氧化反应的转化率为55 %,主要产物是环氧环己烷,其选择性 ≥ 99 %;而以[(C4H9)4N]9[(FeШ(OH2)2)3(A-α-PW9O34)2]为催化剂时环己烯氧化反应的转化率17 %,主要产物是2-环己烯-1-酮,选择性 ≥ 99 %.     

Effect of La on Partial Oxidation of Ethanol to Hydrogen over Ni／Fe Catalysts

The partial oxidation of ethanol to hydrogen was investigated over Ni/Fe/La catalysts prepared by the co-precipitantion method.the effects of introduction of La promoter and the reaction temperature on the catalytic performance were studied.It was found that the introduction of La into Ni/Fe catalysts is helpful to increase the selectivity to hydrogen and the stability of the catalysts.The results of XRD and XPS characteri-zation show that the structure of the catalyst was changed during the reaction.The existence of LaFeO3 species is possibly the main reason of the increase of the catalyst stability.     

Ni-Fe/蒙脱土催化剂催化乙醇水蒸气重整制氢的研究

采用浸渍法制备了一系列Ni-Fe/蒙脱土(MMT)催化剂,并应用于乙醇水蒸气重整制氢反应(ESR)。采用X射线衍射(XRD)、N_2吸附脱附分析和H_2-程序升温还原(H_2-TPR)表征手段对催化剂的物理化学性质、还原性能、碳沉积等进行了研究。结果表明,Ni-Fe/MMT催化剂中,Ni、Fe高度分散在载体MMT层间及表面,而且Fe的加入降低了Ni颗粒的粒径,增强了Ni~(2+)与载体的相互作用力。以10Ni5Fe/MMT为催化剂,在反应温度为500℃、水醇比为3∶1、空速为12 h~(-1),反应进行30 h后,乙醇转化率为100%,氢气选择性仍保持72%,副产物CO和CH_4含量明显降低。这是因为催化助剂Fe的引入,一方面,提高了Ni的分散度,使得ESR低温活性较好;另一方面,减小了Ni颗粒粒径,小颗粒的Ni有利于抑制甲烷的生成,并且Fe的加入加强了甲烷重整和水煤气变换反应,提高产物中氢气的选择性。     

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.     

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。     

Characterization of rapidly and naturally quenched skeletal iron catalysts for FT synthesis

The slurry phase is a promising system for Fischer-Tropsch (FT) synthesis. Since the liquid medium efficiently removes the heat of reaction so that the steady-state reaction is easily achieved. High catalytic activity is maintained due to removal of waxy products from the catalyst surface by the action of solvent. In addition, CO-rich syngas from coal gasification can be directly used in FT synthesis which may increase the thermal efficiency of the indirect coal liquefaction. One of the important problems to be solved for slurry phase FT is the catalyst attrition and separation from wax residue. Fused iron and Raney iron were found to have high attrition resistance and easy to separate from wax in slurry phase FT synthesis, but their activity is relatively low. Amorphous alloys made by rapid quenching techniques have drawn increasing interest due to their superior mechanical,chemical and magnetic properties compared to the thermodynamically stable crystalline alloys of the same compositions. It is reported that rapidly quenched skeletal Ni catalyst showed higher catalytic activity than Raney Ni in selective hydrogenation of unsaturated organic functional groups.In this paper, Fe50Al50 (by weight) alloys with different quenching rates, rapid quenching (RQ) and natural quenching (NQ) were prepared for FT synthesis. The phase composition of alloys was characterized by XRD. The physical properties, thermal-stability and adsorption properties of skeletal Fe that was prepared by leaching aluminum of the corresponding alloy with aqueous solution of NaOH were also studied by BET, in situ XRD and H2- and CO-TPD. It is found from XRD patterns of the alloys that RQ Fe50Al50 is composed of orthorhombic phase, and NQ Fe50Al50 alloy is mainly composed of monoclinic phase. Meanwhile, diffraction peaks of the RQ alloy are seriously broadened. After leaching aluminum by aqueous solution of NaOH at the same conditions,skeletal Fe from the RQ alloy give the higher specific surface area and larger pore volume. The in -situ XRD shows that skeletal Fe from RQ alloy is composed of elemental iron and magnetite (FeFe2O4) with poor crystalline. The skeletal Fe from NQ alloy is mainly composed of elemental Fe and minor magnetite. The higher content of the magnetite phase in RQ skeletal Fe may arise from the higher activity of the RQ alloy. When the skeletal Fe was heated under Ar flow, the content of magnetite phase increased with temperature and became the main composition at 400℃ for the skeletal Fe from the RQ alloy. For the skeletal iron from the NQ alloy, phase change under heating is less obvious compared with that for the RQ skeletal iron. The H2-TPD profiles of the catalysts showed that two H2 desorption peaks appeared in both NQ and RQ skeletal iron, but the temperatures at maximum desorption rate of RQ skeletal iron were higher than those of the NQ skeletal iron. The CO-TPD experiment showed that NQ skeletal iron had the stronger affinity to CO than RQ skeletal iron. The different properties were explained on the basis of structure.     

还原剂对Au-Pd/CeO2催化剂甲醇部分氧化性能的影响

以PVP为保护剂,乙醇(ER)、乙二醇(GR)和水合肼(HR)为还原剂制备了一系列Au-Pd/CeO2催化剂,考察了还原剂对甲醇部分氧化性能的影响,并运用XRD、TPD和TPR等手段对催化剂进行了表征。结果表明,Au-Pd/CeO2(ER)催化剂具有较大的比表面积,形成的AuxPdy量较多、粒径较小、分散度较高、活性组分与载体的相互作用较强,同时对甲醇的吸附量较大和吸附温度较低。因此,该催化剂具有较高的催化活性和氢气选择性以及较低的CO质量分数。     

泡沫镍铁合金自支撑NiFeOOH纳米片的制备及析氧性能研究

电催化析氧反应(OER)是电解水制氢的重要半电池反应。然而,OER的缓慢动力学仍需研究高效的电催化剂。在非贵金属催化剂中,NiFe基材料是OER催化剂研究热点。本文通过食人鱼溶液简单一步浸渍刻蚀法将不同Fe含量的泡沫NiFe合金进行氧化,制备了表面具有纳米片形貌的NiFeOOH自支撑电催化剂,并深入研究其电催化析氧性能。通过SEM、XRD、XPS等对电催化剂的形貌结构及成分进行表征,证实了三维多孔基底上NiFeOOH纳米片结构的形成。由于高价镍、铁物种的存在以及二维纳米片结构的生成,NiFeOOH/NF的析氧性能大幅度提高,在10 mA?cm-2的电流密度下过电位仅155.68 mV,Tafel斜率为 88.2 mV?dec-1。这为研制高效、耐用的自支撑非贵金属电极提供了新思路。