纳米孔Pt-(Re,Sn)/HZSM5-HMS催化剂上正庚烷异构化反应的实验和动力学研究（英文）

在200–350°C考察了Pt-(Sn,Re)/HZSM 5-HMS催化剂上正庚烷异构化反应.采用X射线衍射、X射线荧光光谱、傅里叶变换红外光谱、紫外-可见光谱、H2程序升温还原、NH_3程序升温脱附、吸附吡啶红外光谱、H_2化学吸附、N_2吸附-脱附、扫描电镜和热重等技术对催化剂进行了表征.在不同的H_2和正庚烷分压条件下考察了正庚烷异构化反应动力学,研究了反应条件对催化性能的影响.结果表明,双金属催化剂和三金属催化剂表现出比单金属催化剂更高的催化性能.200 oC时Pt-Sn/HZSM 5-HMS催化剂表现出最高的异庚烷选择性(74%)和多支链异构体选择性(40%).     

含双金属的DUSY负载磷钨酸催化剂上正庚烷 临氢异构化

用脱铝USY沸石(DUSY)负载12-磷钨酸(PW), 并以此为载体制备含Pt和Ce(或La)的双金属催化剂, 用XRD, BET, IR以及氢吸附等表征了催化剂的物化性质, 并在常压固定床反应器上考察催化剂的正庚烷临氢异构化反应性能. 结果表明, USY经过水蒸气和酸的联合处理并负载了PW和双金属以后仍能保持沸石原有结构, 同时催化剂中的PW保持了完好的Keggin结构, 金属助剂Ce的加入可以明显提高贵金属Pt的分散度; 在含Pt的催化剂中掺杂Ce或La, 特别是Ce后, 可显著提高催化剂的低温活性和异构化产物选择性. 催化剂的优化组成为 15CePt-PW/DUSY, 采用这一催化剂, 正庚烷异构化的优化反应条件为: 反应温度250℃, 液时空速1.4 h^-1, 在此条件下正庚烷的转化率为70.3%,异构化产物的选择性可达94.1%.     

正庚烷在β沸石负载碳化钼催化剂上的异构化研究

利用程序升温还原法制备了β沸石负载碳化钼催化剂。XRD表征显示,利用正戊烷作为碳源得到了对异构化具有活性的βMo2C。以正庚烷为模型反应物,在连续流动固定床反应装置上考察了温度、压力、空速和氢烃比对βMo2C/β沸石催化剂临氢异构化反应性能的影响。获得了β沸石负载碳化钼催化剂上正庚烷异构化的最佳反应条件温度270℃～275℃,压力1.0MPa～1.5MPa,体积空速1.0h－1,氢烃体积比200∶1。在最佳条件下反应物转化率为82%,选择性和异构产物收率分别达到71%和58%。     

掺杂Cr助剂的Pt/USY催化剂上正庚烷异构化反应研究

The Pt-supported USY zeolite catalysts doped with Cr, Al or Zn were prepared by impregnation, and characterized by XRD, low temperature nitrogen physisorption, H2-chemisorption and IR spectroscopy of the pyridine adsorption. Catalytic activities were evaluated via the hydroisomerization of n-heptane with an atmospheric fixed-bed reactor. The Pt dispersion and acidity of the Pt-supported USY catalyst were influenced by the addition of the promoters. The Pt-supported catalysts promoted by Cr, Al or Zn, especially by Cr, were catalytically much more stable and exhibited much higher catalytic activity and selectivity for isomerization of n-heptane than the catalysts without the dopant. Both the conversion and selectivity are discussed in relation with the physicochemical properties of catalysts.     

超声辅助制备Ni-Mo/USY催化剂上正庚烷异构化性能研究

以USY分子筛作为载体,Ni和Mo作为活性组分,利用超声辅助浸渍法（US-IM）和常规浸渍法（C-IM）制备了Ni/USY（US-IM）和Ni-Mo/USY催化剂.采用X射线衍射（XRD）、吡啶-红外光谱分析（Py-IR）和N₂吸附-脱附等对催化剂进行理化性质表征,综合考察了不同改性方法以及单金属和双金属改性前后分子筛酸性和孔结构性质等的变化及其对正庚烷异构化性能的影响.实验结果表明：Mo对于Ni在USY分子筛上的均匀分布以及异构化催化性能具有协同促进作用;超声条件对双金属改性的USY结构基本无影响;超声空化作用降低了催化剂金属粒子的团聚,使其在USY表面均匀分散,增加了催化反应中所需的金属活性位点.超声辅助浸渍制备的Ni-Mo/USY中较高的金属分散度导致了较强的金属-载体相互作用,使其活性和稳定性高于常规浸渍法.在优化超声条件下,反应温度和反应时间分别为250℃和3 h,还原温度和还原时间分别为550℃和5 h,H₂/C₇摩尔比为0.14时,正庚烷的转化率和异构化选择性分别可以达到65.7%和74.1%.     

正庚烷在Ni-Sn/SAPO-11催化剂上的临氢异构化反应

分别以浸渍法和分步浸渍法制备了Ni/SAPO-11催化剂和Ni-Sn/SAPO-11双金属催化剂,利用XRD、F T-IR、NH_3-TPD、Py-IR、SEM等手段对其进行了表征,考察了Sn含量对分子筛结构和酸性的影响,并以正庚烷临氢异构化为探针反应,考察了Sn含量及反应条件对催化剂临氢异构化性能的影响.结果表明,在我们所考察的Sn含量范围(加入锡含量)内,所制备的催化剂均能保持SAPO-11分子筛晶相,金属Sn均可调节催化剂酸性.加入Sn可以明显提高正庚烷的转化率和异庚烷的选择性,其中,在氢烃比n(H_2)/n(n-C_7H_(16))为14、H_2流速为30m L/min、还原温度为430℃、还原时间为5 h、反应温度为300℃、反应时间为5 h、重时空速(WHSV)为6.8 h-1、反应压力为常压条件下,5%Ni-4%Sn/SAPO-11催化剂的催化性能较佳,其正庚烷转化率可达43%,异庚烷的选择性可达71%.     

Ce促进Ni/SAPO-11催化剂上正庚烷的临氢异构化

通过浸渍法制备了Ni/SAPO-11催化剂, 并进一步通过分步浸渍法制备了Ni-Ce /SAPO-11双金属催化剂, 对其晶相结构和表面酸性进行了表征. 实验结果表明, Ce的引入导致比表面积和孔容增大, 总酸量升高而酸强度降低, 金属Ni在载体SAPO-11表面的分散度提高. 通过对正庚烷的临氢异构化反应研究发现, 引入Ce可以显著提高异庚烷的选择性. 在n(H₂)/n(n-C₇H₁₆)=12, MHSV=3.52 h^-1, 催化剂量0.3 g, 反应温度300 ℃条件下, Ni-2%Ce/SAPO-11催化剂的正庚烷转化率可达25.4%, 异庚烷的选择性可达90.4%.     

在Pt-Mo-S/Al_2O_3催化剂上正庚烷重整反应的研究

考察了在 4 70℃和连续流动条件下 ,正庚烷在Pt-Mo -S/Al2 O3催化剂上的反应行为 ,脉冲CS2 用来表征催化剂的耐硫性。实验表明 ,以 [Pt(MoS2 O2 ) 2 ](NH4 ) 2 作为金属前身物 ,能够抑制正庚烷的氢解 ,增加催化剂的稳定性 ,使催化剂有较显著的抗硫中毒性能。Pt-Mo -S催化剂的这种异常行为是由于催化剂可能形成S -Pt-S -Mo -S -Pt-S的结构 ,这种结构S毒化了催化剂的活性中心从而抑制烷烃在铂上的深度脱氢。     

SO_4~(2-)/ZrO_2催化剂上正丁烷异构化反应

考察了活化温度、反应温度、空速、Ｈ２／Ｃ４比和载Ｐｔ对ＳＯ２－４／ＺｒＯ２催化剂的正丁烷异构化反应活性和稳定性的影响．较高的Ｈ２／Ｃ４比可提高ＳＯ２－４／ＺｒＯ２催化剂的稳定性和稳态活性．催化剂负载Ｐｔ后，可降低反应原料中的Ｈ２／Ｃ４比．积炭是造成反应初始阶段催化剂迅速失活的主要原因，经烧炭再生以后这部分失活可以完全恢复     

一种制备用于正庚烷异构化的Pt-WO3/ZrO2催化剂的新方法

 采用不同的ZrO(OH)2前驱体制备了WO3-ZrO2和Pt/WO3-ZrO2催化剂. 结果表明,与常规的ZrO(OH)2水凝胶为前驱体制备的WO3-ZrO2-CP催化剂相比,以常压流动氮气中干燥处理的ZrO(OH)2乙醇凝胶为前驱体制备的WO3-ZrO2-AN催化剂对正庚烷临氢异构化反应具有更高的催化活性. 当在 WO3-ZrO2-AN中添加少量Pt时,其催化活性和稳定性均得到显著提高. 表明以ZrO(OH)2醇凝胶为前驱体可以制备出高效稳定的Pt/WO3-ZrO2-AN催化剂.     

Synthesis and Characterization of Sn-W Complexes and Crystal Structure of Ph_3SnW(CO)_3C_5H_4CH_3

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Sn(II)/PN@AC catalysts: synthesis,physical-chemical characterization,and applications

In this study, the novel tin-based catalysts (Sn(II)/PN@AC) were prepared using the phosphorus and nitrogen dual-modified activated carbon as support and SnCl₂ as active compounds, as well as then evaluated in acetylene hydrochlorination. Under the reaction temperature of 180 °C and an acetylene gas hourly space velocity (GHSV-C₂H₂) of 30 h^–1, the 15%Sn(II)/PN@AC-550 showed the initial acetylene conversion of 100% and vinyl chloride selectivity over 98.5%. Additionally, the deactivation rate of 15%Sn(II)/PN@AC-550 reached 0.47% h^–1, which was lower than that of 15%Sn(II)/AC-550 (1.02% h^–1), suggesting that PN@AC-550 as novel support can retarded the deactivation of Sn(II)/AC-550 catalysts during acetylene hydrochlorination. Based on the catalytic tests and characterization results (XRD, Raman, BET surface area, TEM, C₂H₂-TPD, H₂-TPR, XPS, FT-IR, TGA, and ICP), it demonstrated that PN@AC-550 as support could effectively improve the dispersion of tin species, retard the formation of coke deposition, lessen the oxidation of SnCl₂ during the preparation process, as well as relatively inhibit the leach of tin species during the reaction. By combing the FTIR results and Rideal–Eley mechanism, we proposed that that HSnCl₃ was transition state of SnCl₂ in catalysis acetylene hydrochlorination and then adsorbed the acetylene to produce the vinyl chloride.     

Effect of WO_x promoter on Pt/ZrO_2-HMS catalysts for n-heptane isomerization: Catalytic performance and kinetics study

Platinated W/Zr mixed oxides supported on mesoporous silica with various amounts of Si/Zr, namely PtWO_3/ZrO_2([76_TD$IF]x)-HMS, were prepared and studied for n-heptane isomerization reaction at 200–350 C. The various methods such as XRD, XRF, FT-IR, UV–vis DRS, NH_3-TPD, H_2 chemisorption, nitrogen adsorption–desorption, Py-IR, SEM and TGA techniques were used for characterization of these materials. Kinetics of n-heptane isomerization was also investigated under various hydrogen. n-Heptane pressures and the influence of reaction conditions on catalytic performance were studied. The ideal catalytic performance was observed on HMS with 0.6%Pt/12%WO_3/ZrO_2 and Si/Zr = 10.     

Kinetic study on isomerization of verbenol to isopiperitenol and citral

Thermal isomerization of verbenol in the gas and liquid phases is discussed. The effect of temperature and residence time on the reaction mixture composition was studied (at 460-600°C and a residence time t of about 10^-3 min for the gas phase conditions; at 200-350°С and t = 10-80 min for the liquid phase process). The kinetic behavior and the reaction mechanisms are presented. This revised version was published online in August 2006 with corrections to the Cover Date.     

Dehydrogenation of propane on aluminoplatinum catalysts modified with Re,Zr, Sc,and Sn

The effect of addition of Re, Zr, Sc, and Sn on an aluminoplatinum catalyst in the reaction of dehydrogenation of propane was investigated. It was shown that addition of 0.2–0.5% Zr, Sc, or Re virtually does not alter the catalytic properties of the aluminoplatinum catalyst (APC); addition of 0.2% Sn increases the activity, selectivity, and stability of Pt/Al₂O₃. The amount of coke deposited on the APC after the first 5 min of work decreases by three times in the presence of Sn. The coke is more enriched with hydrogen than the other systems formed on the surface of Pt-Sn/Al₂O₃.Deceased.Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 4, pp. 765–771, April, 1991.     

2-乙基蒽醌在双金属整体式催化剂上的氢化反应: 实验和DFT研究

过氧化氢(H2O2)是一种绿色化工原料和环境友好氧化剂. 目前, 超过 98% 的H2O2是通过蒽醌法生产. 蒽醌法主要包括 2-乙基蒽醌氢化生成 2-乙基氢蒽醌和 2-乙基氢蒽醌氧化生成 2-乙基蒽醌和H2O2的过程. 其中, 2-乙基蒽醌氢化是关键步骤. 在氢化过程中, 生成的 2-乙基氢蒽醌和四氢-2-乙基氢蒽醌是目标产物, 同时生成许多副产物. 目前, Pd 颗粒催化剂是广泛使用的催化剂, 但是蒽醌氢化过程中, 质量传递是主要的控制因素. 与颗粒催化剂对比, 整体式催化剂可以减弱整个反应的内外扩散, 提高反应速率. 很多研究结果显示, 整体式催化剂的传质优于颗粒催化剂, 可以提高催化效率. 近期许多研究显示, 双金属颗粒催化剂在很多氢化反应中体现出优异的催化性能. 本工作制备了双金属整体式催化剂, 考察了其在蒽醌氢化过程中的催化性能.首先, 通过浸渍法制备了4 种双金属整体式催化剂 Pd-M/SiO2/COR (M = Ni, Fe, Mn和 Cu)以及Pd/SiO2/COR和Ni/SiO2/COR两种单金属整体式催化剂. 催化活性结果显示, Ni/SiO2/COR的H2O2产量低于 Pd/SiO2/COR, 而且在 700 oC还原的 Pd-Ni/SiO2/COR 整体式催化剂在 Pd/M = 2 时取得了最高选择性 (95.3%) 和H2O2产量 (7.5 g/L). 然后, 考察了金属负载量的影响. 结果显示, 在金属负载量低于 0.4% 时, 随着金属负载量增加, 选择性和H2O2产量增加, 在金属负载量高于0.4% 时, 随着金属负载量增加, 选择性和H2O2产量降低. TEM结果表明, 添加第二种金属后, 双金属整体式催化剂颗粒尺寸变小, 分布更均匀. EDS结果显示, 双金属形成了合金. H2-TPR结果显示, 随着Pd/M比率增加, 还原温度降低, 说明Pd有助于第二种金属氧化物的还原. 这可能是由于 Pd 表面的氢溢流到第二种金属 (Ni, Fe, Mn和 Cu) 表面. 此外, 文献结果表明, 合金的形成能够抑制 PdH 的形成. 本工作表明添加第二种金属 (Ni, Fe, Mn和Cu) 后, PdH 的峰强度减弱或者峰消失, 也说明形成了合金. XPS 结果显示, 添加第二种金属后,在 336.3 ± 0.1 和 341.4 ± 0.1 eV 出现了新的 Pd 3d5/2和 Pd 3d3/2峰, 说明形成了合金. H2-O2滴定结果表明, Pd-Ni/SiO2/COR的Pd分散度和Pd比表面积都高于其他双金属催化剂, 说明第二种金属 Ni 更有利于促进 Pd 的分散, 减弱颗粒集聚, 揭示了Pd 和 Ni 之间强烈的相互作用. DFT 计算结果显示, Pd3M1(M = Ni, Fe, Mn和Cu) 双金属整体式催化剂和 2-乙基蒽醌之间的结合能低于 Pd/SiO2/COR和 2-乙基蒽醌之间的结合能, 但是 Pd3M1(M = Ni, Fe和Mn) 双金属催化剂和 2-乙基氢蒽醌之间的结合能减小得很少, 这可能是由于 2-乙基蒽醌的 C=O 和第二种金属之间具有强烈相互作用的缘故. Pd3Cu1双金属催化剂和 2-乙基氢蒽醌之间的结合能减小很多, 主要是由于 Pd3Cu1表面不利于 2-乙基氢蒽醌的吸附.因此, Pd-Ni/SiO2/COR 比 Pd/SiO2/COR, Ni/SiO2/COR 和其他的双金属整体式催化剂具有更高的选择性和H2O2产量, 主要是由于合金的形成以及 2-乙基氢蒽醌的 C=O 双键和 2-乙基氢蒽醌强烈的相互作用.     

Unusually facil cis to trans isomerization of a polypropiolate bearing a long alkyl chain polymerized using a [Rh(norbornadiene)Cl]2 catalyst: An ESR study

Alkylpropiolate having n-hexadecyl moiety in the ester group was stereospecifically polymerized with a [Rh(norbornadiene)Cl]₂ complex catalyst in alcohol to give rise to cis-transoid polyacetylenes in high yields. The unusually facile cis to trans isomerization for the polymer was found to be induced when the polymer was warmed to even less than ca. 57°C. Under these conditions ESR spectra bearing hyperfine structures due to the radicals generated by the rotational scission in the cis–π bond were observed. This isomerization induced a large g value shift in the ESR spectra together with an increase of the radical concentration during the isomerization, indicating formation of planar conjugated trans sequences that stabilize mobile unpaired electrons as solitons. © 1998 John Wiley & Sons, Inc. J. Polym. Sci. A Polym. Chem. 36: 2457–2461, 1998     

Preparation and photoinduced isomerization study of a homopolymer and a copolymer based on 4′‐(6‐acryloxy)hexyloxy‐4‐methoxyazobenzene and acrylic acid

The synthesis and characterization of a copolymer based on 4′‐(6‐acryloxy)hexyloxy‐4‐methoxyazobenzene (MAB6) and acrylic acid (AA) are reported. A reaction was carried out by free‐radical polymerization, yielding an MAB6 homopolymer and an AA–MAB6 copolymer with an MAB6 concentration of 16–80%. A nematic phase was observed in the copolymer when the MAB6 content was 44% or higher. Both nematic and smectic phases were observed in the MAB6 homopolymer. All of the polymers were investigated for trans–cis–trans isomerization in a solid film. The samples were irradiated with nonpolarized ultraviolet light (385 nm) before absorption measurements were taken with an ultraviolet–visible spectrometer. The copolymer and homopolymer exhibited a thermal cis–trans isomerization, which could be described by a double‐exponential relaxation process (fast and slow). The relaxation experiment suggested that the hydrogen bonding may have hindered the slow process but had no effect on the fast process. A film of a copolymer sample with a high MAB6 content could be optically aligned by the exposure of the sample to polarized light (385 nm). © 2003 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 41: 4017–4024, 2003     

乙醇对Pt/SAPO-11和Pt/ZSM-22催化剂烷烃异构化性能的影响

选用SAPO-11、ZSM-22两种分子筛为载体,浸渍Pt制备了Pt/SAPO-11和Pt/ZSM-22催化剂,以正庚烷为模型化合物,考察乙醇对催化剂临氢异构化反应性能的影响。并通过BET、XRD、C₂H₅OH-TPD和C₂H₅OH-FTIR等表征手段对催化剂的物化性能以及吸附反应性能和不同活性酸性位点进行了研究考察。结果表明,乙醇在临氢异构转化过程优先生成H₂O,并以H₂O的形式影响催化剂的异构化性能,催化剂异构活性与选择性随乙醇含量的增加而降低。与Pt/ZSM-22催化剂相比,Pt/SAPO-11催化剂由于有P-OH基团,表现出一定的抗含氧化物乙醇的性能。     

Hydroisomerization of n-heptane over bimetal-bearing H_3PW_(12)O_(40) catalysts supported on dealuminated USY zeolite

The bimetal-bearing (CePt or LaPt) 12-tungstophosphoric acid (H3PW12O40 (PW)) catalysts supported on dealuminated USY zeolite (DUSY) were prepared by impregnation and characterized by XRD, BET, IR, and H2-chemisorption. Their catalytic activities were tested in the hydroisomerization of n-heptane with a continuous atmospheric fixed-bed reactor. After the steam treatment combined with the acid leaching, as well as the supporting with PW and the bimetals, the DUSY support retains the Y zeolite porosity and the PW well keeps its Keggin structure in catalysts. The doping of Ce into the catalysts enhances the dispersion of Pt on the catalyst surface. The Pt-bearing PW catalysts doped with Ce or La, especially Ce, exhibit much higher catalytic activity and selectivity than the catalysts without dopants at lowered reaction temperatures. At the optimal reaction conditions, i.e., the reaction temperature of 250℃ and WHSV of 1.4 h1, the catalyst with a Pt loading of 0.4%, PW loading of 10% and a molar ratio of Ce to Pt of 15:1 shows a conversion of n-heptane of 70.3% with a high selectivity for isomerization products of 94.1%.