纳米NaY分子筛的合成及其催化柴油加氢改质性能

在系统考察添加阳离子表面活性剂、凝胶陈化以及晶化温度和晶化时间等因素对NaY分子筛细化影响的基础上,对纳米NaY分子筛的合成规律进行了研究;合成出了n(SiO2)/n(Al2O3)=4.5,BET比表面积为620m2/g,孔容为0.34 cm3/g,微孔集中分布在0.55 nm附近,粒度分布范围在100 nm以内的纳米NaY分子筛.并采用XRD、BET、IR、TTEM和NH3-TPD等手段系统表征了纳米NaY分子筛的微观结构.分别采用合成的纳米NaY分子筛和微米NaY分子筛为原料制备负载型Ni-Mo-P催化剂,并以FCC柴油为原料,考察了催化剂的加氢改质性能,结果表明,与微米NaY分子筛基负载型Ni-Mo-P催化剂相比,纳米NaY分子筛基负载型Ni-Mo-P催化剂,在加氢脱氮率、密度和十六烷值相当的情况下,其加氢脱硫率较高,柴油收率较高.     

Rh/SiO~2和Rh/NaY催化剂上合成气反应的高压原位 红外光谱研究

采用高压原位FT-IR技术,对比研究了CO加H~2反应条件下Rh/SiO~2和Rh/NaY催化剂表面反应中间物种。在Rh/SiO~2表面上,无论在常压还是在1.0MPa合成气中,只观察到线式和桥式吸附CO。而在常压合成气中,Rh/NaY上不仅存在上述CO吸附物种,而且还有孪生型的Rh(Ⅰ)(CO)~2和少量Rh~6(CO)~1~6;当合成气压力升至1.0MPa后,Rh(Ⅰ)(CO)~2迅速转化成Rh~6(CO)~1~6和在2042cm^-^1产生吸收的单核羰基Rh物种,与此同时催化剂表面还生成了单齿和双齿乙酸根物种;这些在高压下生成的物种在合成气压力重新降回到常压时依然稳定存在。研究Rh/NaY上合成气反应表面物种与H~2的反应行为表明单齿乙酸根很可能是反应的活性中间物。这些结果说明Rh/NaY催化剂在高压合成气中的重构是诱发选择生成乙酸反应的基础。     

Rh/SiO_2和Rh/NaY催化剂上合成气反应的高压原位红外光谱研究

采用高压原位FT -IR技术 ,对比研究了CO加H2 反应条件下Rh/SiO2 和Rh/NaY催化剂表面反应中间物种 .在Rh/SiO2 表面上 ,无论在常压还是在 1.0MPa合成气中 ,只观察到线式和桥式吸附CO .而在常压合成气中 ,Rh/NaY上不仅存在上述CO吸附物种 ,而且还有孪生型的Rh(I) (CO) 2 和少量Rh6 (CO) 16 ;当合成气压力升至 1.0MPa后 ,Rh(I) (CO) 2 迅速转化成Rh6 (CO) 16 和在 2 0 42cm-1产生吸收的单核羰基Rh物种 ,与此同时催化剂表面还生成了单齿和双齿乙酸根物种 ;这些在高压下生成的物种在合成气压力重新降回到常压时依然稳定存在 .研究Rh/NaY上合成气反应表面物种与H2 的反应行为表明单齿乙酸根很可能是反应的活性中间物 .这些结果说明Rh/NaY催化剂在高压合成气中的重构是诱发选择生成乙酸反应的基础     

载Ni双功能碱性沸石催化剂的研究

采用分步浸渍法制备了负载Ni和KOH的NaX沸石催化剂 ,用XRD、TPR、CO2 TPD和XPS等手段对样品的结构、表面碱性、金属组分的可还原性、表面Ni物种的形态等进行了表征 ,对金属组分和碱性组分间的相互作用进行了研究 ,并揭示了这种作用的本质.同时结合丙酮一步法合成甲基异丁基酮的反应 ,探讨了反应性与样品碱性、金属性的关系 ,阐明了该反应中双功能催化剂上金属组分与碱性组分必须匹配合宜的原因     

CuNaY分子筛上汽油馏分中含硫组分的选择吸附及其红外光谱研究

本文从基础研究的角度出发,以红外光谱技术为主要研究手段,以噻吩为汽油馏分中含硫有机分子的模型化合物,首次给出了噻吩分子在吸附剂表面的吸附方式和吸附位,以及芳烃对噻吩吸附的影响等红外光谱信息.为避免吸附剂的强酸性可能引起的干扰,采用NaY分子筛为原料进行液相离子交换制备吸附剂.     

Ag+改性NaY分子筛的制备及其吸附脱氮性能研究

采用Ag⁺改性NaY分子筛成功制备了AgY分子筛,利用XRD射线衍射、FT-IR、N₂吸附-脱附对NaY和AgY分子筛进行了表征,并用于吸附脱除模拟燃料中吡啶、苯胺、喹啉碱性氮化物,AgY分子筛的吸附能力明显优于NaY分子筛。考察了吸附温度、吸附时间对AgY分子筛吸附三种氮化物的影响,实验结果表明,吸附能力均为：苯胺>喹啉>吡啶,为了进一步研究其吸附机理,采用Materials Studio软件建立了AgY分子筛12T团簇模型并在303、323、343 K下模拟三种氮化物分子在AgY分子筛上的吸附,计算了吸附能、活性中心与吡啶、苯胺、喹啉分子的距离、前线轨道、等密度分布、径向分布函数等相关参数,计算结果也表明,AgY分子筛对苯胺的吸附优于喹啉,优于吡啶,与实验结果一致,且吸附以化学吸附为主,AgY分子筛S位和W位为主要吸附位。吸附等温线研究结果表明,AgY分子筛对吡啶的吸附符合Langmuir-Freundlich混合吸附模型,对苯胺、喹啉的吸附符合Freundlich吸附模型。吸附动力学和吸附热力学结果表明,AgY分子筛对吡啶的...     

可降解型阳离子表面活性剂的合成

以长链烷基酸,环氧氯丙烷和叔胺为原料,经一步反应合成了一系列含酯基可生物降解的阳离子表面活性剂(1),其结构经1H NMR,IR和元素分析表征。研究了叔胺的碱性和空间位阻对收率的影响。利用滴体积法测定表面张力(γ)和临界胶束浓度(CMC)。当叔胺的碱性较强,空间位阻较小时收率最高(1 e,90%)。分子内有两个烷基长链的阳离子表面活性剂的表面活性最强(1b,CMC25=0.024 mmol.L-1,γCMC=34.20mN.m-1)。     

环境友好新材料的开发:微波法研制固体强碱及其在油品脱硫醇中的应用

用微波辐射能将MgO等氧化物负载在NaY等分子筛及SiO₂的表面上,形成具有强碱性和高比表面的复合新材料,并实现了制备过程中的”零排放“而成为环境友好新工艺。本文探讨了沸石孔结构、表面含水量以及客体性质对于微波法制备样品的影响,并探讨了新型固体强碱在汽油脱硫酸工艺中的应用。     

介孔Al2O3负载纳米Au催化剂用于低温催化氧化CO

 用不同模板剂合成了具有较高比表面积和较多表面碱性位的介孔Al2O3载体,并采用均相沉积-沉淀法制备了Al2O3负载纳米Au催化剂,对制备的介孔Al2O3载体及相应催化剂采用低温N2吸附法、TEM和XPS等手段进行了表征,考察了载体表面碱性对纳米Au粒子在载体表面的沉积及相应催化剂在CO氧化反应中催化性能的影响. 以CO2-TPD法测定载体表面碱性,结果表明,介孔氧化铝的表面碱性与其合成过程中所用的模板剂有关. 以表面碱性位较丰富的介孔Al2O3为载体制备的催化剂表面Au粒子分布较均匀且粒径(3.1～3.2 nm)较小,在CO完全氧化反应中催化活性最高,表明载体表面的碱性位有利于稳定其表面沉积的纳米Au粒子. XPS分析结果表明,催化剂表面的Au主要以Au0金属态形式存在,它在CO氧化反应中表现出较高的催化活性.     

Ba—La2O3催化剂的表面碱性,活性氧种对甲烷氧化偶联的影响

利用ＣＯ２－ＴＰＤ技术考察了Ｂａ－Ｌａ２Ｏ３系催化剂的表面碱性，实验发现，催化剂表面仅有单一的强碱位或中碱位时，其催化性能均较差。只有表面的中碱位与强碱位以适当量共同存在的样品（６％Ｂａ－Ｌａ２Ｏ３），才能获得好的催化活性和Ｃ２选择性。此碱性特征可能有利于表面活性位的产生。同时利用ＸＲＤ和ＸＰＳ等技术分别对体相结构和表面氧物种进行了研究。结果表明，Ｂａ－Ｌａ２Ｏ３系催化剂表面存在Ｏ２＾２－离子，但     

环已胺在沸石分子筛上的吸脱附行为研究

本文以程序升温脱附(TPD)为主要实验手段,对环己胺在5种不同沸石分子筛上的吸脱附行为进行了研究。结果表明,沸石分子筛对环己胺有着较强的吸附作用,不同的沸石分子筛对环己胺的吸附能力受其结构和表面酸性特征的影响而异。有效吸附部位为与沸石分子筛表面酸性有关的弱化学吸附位;环己胺从不同沸石分子筛表面脱附的动力学与晶内扩散有关,其表观脱附活化能分别为:63.6kJ/mol(5A),68.6kJ/mol(13X),20.1kJ/mol(菱沸石),46.9kJ/mol(NaY)和47.3KJ/mol(ZSM-5)。     

Esterification of Oleic Acid to Produce Biodiesel over 12-Tungstophosphoric Acid Anchored Two-dimensional Zeolite

Biodiesel has emerged as a non-toxic, biodegradable, and renewable fuel substitute that can be readily produced via the esterification reaction of free fatty acids. The present work explores the potential of 12-tungstophosphoric acid(TPA) anchored two-dimensional(2D) ITQ-2 zeolite(TPA/ITQ-2) as heterogeneous acid catalysts for biodiesel production. TPA/ITQ-2 material was prepared by swelling, delamination, and subsequent wetness incipient impregnation approach. The prepared catalysts were comprehensively characterized by powder X-ray diffraction, N₂ adsorption/desorption, temperature-programmed desorption of ammonia, flou-rier transform infrared spectroscopy, and transmission electron microscopy. The catalytic activity of TPA/ITQ-2 for biodiesel production was evaluated by the esterification reaction of oleate acid with methanol. Process parameters, such as reactant molar ratio and TPA loading were optimized. Due to the superior mass transfer and adequate stable acid sites, 2D TPA/ITQ-2 showed a higher catalytic activity and a better recyclable stability than the 3D and layered TPA/zeolites. This work will provide new opportunities for the design of 2D zeolite-based acid catalysts for biodiesel production.     

微波辐射促进ZnCl2与Y分子筛固相反应的研究

ZnCl2/Y catalysts prepared by solid-state reaction of anhydrous ZnCl2 and Y zeolites under microwave irradiation were characterized by XRD, IR and AAS. ZnCl2 was intercalated in Y zeolites and dispersed on the surface of Y zeolite, part of ZnCl2 dispersed could result in solid-state ion exchange with Y. The amount of dispersion and solid-state ion exchange were related to ZnCl2 loading and the surface acid property of the zeolite. When ZnCl2 loading was 37.5% (mass fraction) in NaY zeolite, ZnCl2 was still completely dispersed on the surf are of zeolite and the degree of solid- state ion exchang was 84%. The appearance of new band at 890 cm-l in the framework IR spectra of ZnCl2/NaY sample was due to the dispersed ZnCl2 coordinating strongly with oxygen of NaY surface. With the increasing of the number of arid centers and the acid strength of the surface of Y zeolite the amount of solid-state ion exchange decreased.     

酸处理对CuY催化剂孔结构及氧化羰基化性能的影响

对NaY分子筛(n_Si/n_Al=2.65)进行了草酸脱铝处理并作为载体采用液相离子交换法制备CuY催化剂, 应用于常压甲醇氧化羰基化合成碳酸二甲酯(DMC)反应。NaY分子筛及其CuY催化剂通过N₂低温吸附-脱附、透射电子显微镜、X射线衍射、²⁹Si固体核磁共振、NH₃吸附程序升温脱附、吡啶吸附红外光谱、H₂程序升温还原、原子吸收等方法进行表征。研究结果表明, 酸处理NaY分子筛后, 骨架铝被脱除, 导致骨架n_Si/n_Al比增加、相对结晶度降低并产生介孔, 有利于产物分子的扩散, 从而影响催化活性。采用4 h、2 mol·L^-1草酸处理NaY分子筛作为载体制备的CuY催化剂显示出较高的催化性能, DMC时空收率和甲醇转化率分别从103.6 mg·g^-1·h^-1和6.3%增加到184.9 mg·g^-1·h^-1和10.2%。产生的介孔能够促进催化剂中铜活性位的可接近性及反应物分子和产物分子的扩散。     

微波辐射促进ZnCl_2与Y分子筛固相反应的研究

采用XRD、IR和原子吸收光谱等手段对微波固相法制备的ZnCl2／Y催化剂进行了表征·微波辐射促进了ZnCl2在分子筛表面分散和固态离子交换，分散的ZnCl2可与分子筛表面氧原子发生较强的配住键合作用．当ZnCl2的负载量达到37．5％时，ZnCl2仍可完全分散于NaY分子筛表面，此时的固态离子交换度为84％．随着分子筛表面酸菌和区强度的增加，ZnCl2与分子筛的固态离子交换量减少．     

Effect of Phosphoric Acid on HZSM-5 Catalysts for Prins Condensation to Isoprene from Isobutylene and Formaldehyde

A series of HZSM-5 zeolites modified with different amounts of phosphoric acid(P/HZSM-5) was prepared. The physicochemical features of the P/HZSM-5 catalysts were characterized via X-ray diffraction(XRD), N₂ adsorption-desorption, NH₃-temperature programmed desorption(NH₃-TPD) and Fourier tranform infrared(FTIR) spectra of the adsorbed pyridine, and the performances of the catalysts for Prins condensation to isoprene from isobutylene and formaldehyde were investigated. The maximum isobutene conversion and isoprene selectivity were 10.3% and 94.6% on the HZSM-5 catalyst with a Si/Al molar ratio of 600 using 5%(mass fraction) phosphoric acid. The phosphoric acid modification not only modulated the amount of acidic sites but also regulated the acid type. An appropriate amount of weak Lewis and Brönsted acid sites served as the active sites for the condensation of isobutene with formaldehyde, and the strong acid sites could cause side reactions and coke deposition.     

酸处理对CuY催化剂孔结构及氧化羰基化性能的影响

对NaY分子筛(n_Si/n_Al=2.65)进行了草酸脱铝处理并作为载体采用液相离子交换法制备CuY催化剂,应用于常压甲醇氧化羰基化合成碳酸二甲酯(DMC)反应。NaY分子筛及其CuY催化剂通过N₂低温吸附-脱附、透射电子显微镜、X射线衍射、²⁹Si固体核磁共振、NH₃吸附程序升温脱附、吡啶吸附红外光谱、H₂程序升温还原、原子吸收等方法进行表征。研究结果表明,酸处理NaY分子筛后,骨架铝被脱除,导致骨架n_Si/n_Al比增加、相对结晶度降低并产生介孔,有利于产物分子的扩散,从而影响催化活性。采用4 h、2 mol·L^-1草酸处理NaY分子筛作为载体制备的CuY催化剂显示出较高的催化性能,DMC时空收率和甲醇转化率分别从103.6 mg·g^-1·h^-1和6.3%增加到184.9 mg·g^-1·h^-1和10.2%。产生的介孔能够促进催化剂中铜活性位的可接近性及反应物分子和产物分子的扩散。     

Synthesis of isoamyl acetate usin NaX and NaY zeolites as catalysts

A liquid phase esterification reaction between glacial acetic acid and isoamyl alcohol has been studied using NaX and NaY zeolites as catalysts. The influence of calcination temperature, the amount of catalysts, reaction temperature, time of esterification and the molar ratio of the reactants has been investigated. Water insoluble products have been isolated from the reaction mixture and analyzed for the ester. Both NaX and NaY are found to be active as catalysts in the reaction. However, their catalytic activity varies with the reaction conditions and their calcination temperature. The reaction has been found to be 100% selective to ester formation. Catalytic activity of the zeolites has been correlated with their surface acidity.     

Adsorption and solvent desorption behavior of ion-exchanged modified Y zeolites for sulfur removal and for fuel cell applications

Typical ion-exchanged modified Y zeolites (AgY and CeY) were prepared for sulfur removal. The adsorption and desorption behavior of typical sulfur and hydrocarbon molecules in various Y zeolites has been investigated by the adsorption breakthrough and on site solvent washing experiments, as well as computer simulation. Breakthrough experiments showed that the adsorption capacity for thiophenic sulfur increased for the studied adsorbents as follows: CeY > AgY > NaY. The higher initial sulfur concentration accelerated the appearance of breakthrough, and the outlet sulfur concentration, in all cases, cannot reach the corresponding initial sulfur level. The concentration profile of washing solvent during desorption process showed that most of the sulfur compounds could be recovered at initial desorption stage. The desorption rates of typical Y zeolites follow the order: NaY > AgY > CeY, which is the reverse as that found in adsorption capacity. The distinct adsorption and desorption behavior of CeY, AgY, and NaY zeolites was markedly related with their various binding force (S-M coordination, π-complexation, and Van der Waals force) with sulfur compounds. The adsorption isotherms and density distribution snapshots study by computer simulation confirmed the preferential adsorption of thiophenic sulfur.     

亚硝胺在沸石催化剂上的程序升温表面反应

 采用程序升温表面反应技术研究了二甲基亚硝胺,吡咯烷亚硝胺和环六亚甲基亚硝胺在NaY,NaZSM－5和HZSM－5等沸石及MCM－41中孔分子筛上的脱附及分解．结果表明,沸石对亚硝胺有独特的吸附和催化分解作用．同时,研究了沸石孔结构及表面酸性对亚硝胺分解反应的影响．