甲醇气相氧化羰基化合成碳酸二甲酯的研究 Ⅱ助剂对催化性能的影响

考察了碱金属助剂对ＰｄＣｌ２－ＣｕＣｌ２ＡＣ催化剂上甲醇气相氧化羰基化直接合成碳酸二甲酯反应性能的影响及助剂的作用。结果表明：采用不同碱金属助剂时的碳酸二甲酯收率顺序为Ｋ＞Ｎａ＞Ｌｉ；ＫＯＡｃ助剂的主要作用是与ＰｄＣｌ２、ＣｕＣｌ２发生化学反应，促进催化活性位的形成；ＫＯＡｃ为助剂母体的效果明显好于ＫＣｌ母体；Ｋ助剂的最佳含量为２～３ｗ％；在反应温度Ｔ＝１５２℃，进料气体空速和液体空速分别为１４８３ｈ－１和４ｈ－１，进料ＣＯＯ２比为２８３时，对于Ｐｄ＝０６１ｗ％，原子比为ＰｄＣｕＫ＝１１４１４的ＰｄＣｌ２－ＣｕＣｌ２－ＫＯＡｃＡＣ催化剂，在６ｈ的运转时间内碳酸二甲酯的时空收率可达到３１７～３６１ｇＬ－ｃａｔｈ，甲醇的单程转化率为１４８～１６９％     

Ni,Pd／Al2O3对丙酮加氢一步合成甲基异丁基酮性能比较

研究了Ａｌ２Ｏ３负载Ｎｉ、Ｐｄ催化剂上丙酮加氢一步合成甲基异丁基酮的反应活性。考察了不同Ｎｉ含量和不同Ｐｄ含量对活性的影响。结果表明，在载体Ａｌ２Ｏ３中加入不同含量的ＳｉＯ２后，会改善载体的性能，Ｎｉ／Ａｌ２Ｏ３催化剂中添加稀土元素Ｌａ或Ｃｅ后可改善催化剂的稳定性。     

Ni-La2O3/C催化剂上甲醇羰基化反应性能的研究

以ＸＰＳ,ＴＲＰ技术和羰基化活性测试等手段研究了镧组分对Ｎｉ／Ｃ催化剂的表面组成,还原性能及羰基化反应性能的影响。结果表明：镧组分以Ｌａ２Ｏ３形式存在,Ｌａ２Ｏ３组分能够削弱氧化镍与活性炭之间的相互作用,促进ＮｉＯ的还原;适量的Ｌａ２Ｏ３组分还能促进ＮｉＯ在载体表面的分散,从而提高镍催化剂的羰基化活性,最佳Ｌａ含量为３．２％。浸渍次序对催化性能有一定的影响。其活性顺序为先浸镍后浸镧≈共浸〉先浸镧后     

热处理对Ni/C催化剂上甲醇羰基化性能的影响

在惰性气氛中将Ｎｉ／Ｃ催化剂进行不同温度的热处理,采用ＸＰＳ,ＴＰＲ,ＢＥＴ和ＸＲＤ手段对其进行了表征。在加压和碘甲烷助催化剂的存在下考察了热处理温度和热处理次序对甲醇羰基化活性及醋酸收率的影响。结果表明,随着处理温度的升高,羰基化活性和产物收率明显提高,而热处理次序对反应性能影响甚微。热处理过程中活性炭保进了ＮｉＯ还原为金属Ｎｉ,使得镍活性中心的数目明显增加,并且氧化炭负载的镍催化剂的孔结构变化     

负载型镍金属催化剂上甲烷与二氧化碳重整制合成气

报道了负载型Ｎｉ金属催化剂的表面特征和对ＣＨ４与ＣＯ２重整制合成气的催化性能，反应结果和ＴＰＲ，ＸＲＣ结果表明：Ｎｉ担载量为９．０％的催化剂具有最佳的反应性能，Ｎｉ组分以高散表面化合物形式存在，助剂对催化剂活性的影响随载体和添加方式的不同较大差异，其中少量ＭｇＯ，Ｌａ２Ｏ３对改善催化剂的稳定性和抗积碳能力有十分显著的效果，载体和制备方法对催化剂性能具有明显影响，其中浸渍法制备的Ｎｉ／ＭｇＯ催化剂不     

甲醇气相氧化羰基化合成碳酸二甲酯的研究Ⅰ.催化剂制备及反应性能

制备了甲醇气相氧化羰基化催化合成碳酸二甲酯催化剂，在常压固定床反应装置上评价了其反应性能。考察了助剂和载体的影响。结果表明：负载在活性炭载体上的单一金属氯化物催化剂的活性相当低，而双金属氯化物催化剂ＰｄＣｌ２ＣｕＣｌ２／ＡＣ可明显提高碳酸二甲酯的产率。不同的活性炭载体显著地影响反应活性。碱性助剂Ｋ、Ｍｇ能大幅度增加碳酸二甲酯的时空收率和对ＣＯ的选择性，但必需是以乙酸盐的形式加入。ＰｄＣｌ２ＣｕＣｌ２ＣＨ３ＣＯＯＫ／ＡＣ催化剂在１３０℃时碳酸二甲酯的收率最高为２１７．０ｍｇ／ｍｌｃａｔ．ｈ。     

甲醇燃料车尾气净化催化剂的研究Ⅱ.负载钯催化剂对甲醇低温深度氧化性能的研究

利用色谱微反联用技术对负载钯催化剂上甲醇、甲醛的深度氧化进行了较全面的研究。结果表明：Ｐｄ／Ａｌ２Ｏ３催化剂对甲醇氧化具有很高的转化效率和一定的深度氧化活性。以（ＮＨ４）２ＰｄＣｌ４为浸渍液、还原气氛下焙烧所得的０．１％Ｐｄ／γＡｌ２Ｏ３性能最好，当进气Ｏ２／ＣＨ３ＯＨ比为６、并无ＣＯ存在时，其Ｔ５０、Ｔ９５分别为９０℃、２００℃，生成甲醛的最高转化率为１７％左右。另外，反应原料气组分如Ｏ２、ＣＯ等也将严重影响Ｐｄ／γＡｌ２Ｏ３对甲醇氧化的活性及选择性。     

甲醇气相氧化羰基化合成碳酸二甲酯的研究

制备了甲醇气相氧化羰基化催化合成碳酸二甲酯催化剂，在常压固定床反应装置上评价了其反应性能，考察了且剂和载体的影响。结果表明：负载在活性炭载体上的单一金属氯化物催化剂的活性相当低，而双金属氯化物催化剂ＰｄＣｌ２－ＣｕＣｌ２／ＡＣ可明显提高碳酸二甲酯的产率。不同的活性炭载体显著地反应活性。碱性助剂Ｋ、Ｍｇ能大幅度增加碳酸二甲酯的时空收率和对ＣＯ的选择性，但必需以乙酸的形式加入，ＰｄＣｌ－ＣｕＣｌ２－Ｃ     

天然气二氧化碳转化制合成气的研究──催化剂抗积炭性能(英文)

采用脉冲色谱技术、ＸＲＤ、ＴＰＲ和ＸＰＳ等方法研究了在天然气二氧化碳转化制合成气反应中催化剂的抗积炭性能。实验结果表明,在Ｎ　Ａｌ２Ｏ３催化剂中添加ＣｅＯ２和ＭｇＯ助剂（催化剂记为Ｎｉ／ＡＲＭ）能有效抑制甲烷脱氢反应,提高二氧化碳消炭能力,增加催化剂的抗积炭性能。其主要原因是,添加ＣｅＯ２和ＭｇＯ助剂增加了活性组分镍的分散度,加强了活性组分和载体的相互作用。改性后的Ｎｉ／ＡＲＭ催化剂在１０２３Ｋ、二氧化碳／天然气／氧气比为２．４／０．１以及１１２３Ｋ、二氧化碳／天然气／氧气比为１．４／１／０．０５的条件下反应８００小时后活性不降低,产物中合成气（ＣＯ＋Ｈ２）摩尔百分含量始终保持在９４－９６％左右。说明该催化剂具有较高的活性、选择性和抗积炭性。     

PVP负载Pd-Co催化剂催化六氯苯的加氢脱氯

研究了温和条件下钯催化剂催化六氯苯加氢脱氢反应． 结果表明, Ｐｄ Ｃｌ２ 催化活性不高,而 Ｐ Ｖ Ｐ 负载 Ｐｄ Ｃｌ２ 活性较高． Ｐ Ｖ Ｐ 负载 Ｐｄ Ｃｏ 催化剂具有双金属协同效应,提高了催化活性．５５ ℃下,该催化剂在 Ｃｏ／ Ｐｄ 摩尔比为０５ 时表现出最高的催化活性．     

Synthesis of dimethyl carbonate by vapor phase oxidative carbonylation of methanol over Cu-based catalysts

Dimethyl carbonate (DMC) synthesis reaction by oxidative carbonylation of methanol has been studied using vapor phase flow reaction system in the presence of Cu-based catalysts. A series of Cu-based catalysts were prepared by the conventional impregnation method using activated carbon (AC) as support. The effect of various promoters and reaction conditions on the catalytic reactivities were intensively evaluated in terms of methanol conversion and DMC selectivity. The morphological analysis by X-ray diffraction and SEM was also conducted in order to characterize the emloyed catalysts. Regardless of catalyst compositions, the optimal reaction temperature for oxidative carbonylation of methanol was found to be around 120–130°C. The reaction rate was too slow below 100°C, while too much by-products was produced above 150°C. Among the various catalysts employed, CuCl₂/NaOH/AC catalyst with the molar ratio of OH/Cu=0.5–1.0, has shown the best catalytic performance, which appears to have a strong relationship with the formation of intermediate species, Cu₂(OH)₃Cl.     

炭载Pd-Pt催化剂中Pd和Pt原子比对直接甲醇燃料电池阴极催化性能的影响

研究了不同Pd和Pt原子比的炭载Pd-Pt(Pd-Pt/C)催化剂对氧还原的电催化性能和抗甲醇性能。 发现当Pd和Pt原子比从20∶0增加至17∶3时,Pd-Pt/C催化剂对氧还原的电催化活性逐步增加,而对甲醇氧化均元电催化活性,表明有很好的抗甲醇能力。 但当Pd和Pt原子比增加至16∶4时,虽然对氧还原的电催化活性还在增加,但抗甲醇能力下降。 所以当Pd-Pt原子比为17∶3时,Pd-Pt/C有很好的对氧还原的电催化性能和抗甲醇能力,可以用作直接甲醇燃料电池(DMFC)的阴极催化剂。     

One-step synthesis of carbon-supported Pd–Pt alloy electrocatalysts for methanol tolerant oxygen reduction

A facile, one-step reduction route was developed to synthesize Pd-rich carbon-supported Pd–Pt alloy electrocatalysts of different Pd/Pt atomic ratios. As-prepared Pd–Pt/C catalysts exhibit a single phase fcc structure and an expansion lattice parameter. Comparison of the oxygen reduction reaction (ORR) on the Pd–Pt/C alloy catalysts indicates that the Pd₃Pt₁/C bimetallic catalyst exhibits the highest ORR activity among all the Pd–Pt alloy catalysts and shows a comparative ORR activity with the commercial Pt/C catalyst. Moreover, all the Pd–Pt alloy catalysts exhibited much higher methanol tolerance during the ORR than the commercial Pt/C catalyst. High methanol tolerance of the Pd–Pt alloy catalysts could be attributed to the weak adsorption of methanol induced by the composition effect, to the presence of Pd atoms and to the formation of Pd-based alloys.     

醇在载钯碳化钨/碳纳米管催化剂上的氧化

用交替微波法制备了碳化钨与多壁碳纳米管复合材料(WC/MWCNT),以该材料为载体制备了Pd基催化剂(Pd-WC/MWCNT),并将催化剂用于醇的催化氧化反应.结果表明,Pd-WC/MWCNT催化剂对乙醇的催化氧化活性是Pd/C催化剂的5倍.交换电流密度测量和反应活化能计算表明,Pd-WC/WIWCNT催化剂对乙醇催化氧化的交换电流密度比Pd/C大两个数量级,反应活化能低一倍以上.Pd-WC/MWCNT催化剂催化氧化乙醇性能的大幅度提高是碳化钨与Pd颗粒的协同效应和碳纳米管的结构效应共同作用的结果.     

EFFECT OF Cu CATALYST PREPARATION ON THE OXIDATIVE CARBONYLATION OF METHANOL TO DIMETHYL CARBONATE

In this paper, the effect of catalyst preparation on the activity of supported Cu catalyst for oxidative carbonylation of methanol to dimethyl carbonate was investigated. The results showed that after addING metal hydroxide, the supported Cu catalyst enhanced the conversion of methanol and the selectivity TO of DMC and the suitable mole ratio of OH/Cu is 1.0. The optimum Cu content lies in 6-10 wt.% and varies with reaction temperature. The suitable calcination temperature range is 200-300^oC considering both factors of methanol conversion and DMC selectivity. The effect of particle size of the catalysts on the activity is negligible.     

A Non‐Phosgene Route Synthesis of Carbamate in Continuous Fixed Bed Reactor

A non‐phosgene route synthesis of carbamate was carried out in a continuous fixed‐bed reactor through oxidative carbonylation of aniline using palladium catalysts and sodium iodide as promoter. The activity, selectivity and stability of both carbon and alumina‐supported palladium catalysts were evaluated. It was found that the alumina‐supported catalyst system exhibited a higher activity and selectivity than that of the carbon‐supported system, and an average aniline conversion of 95.6% and carbamate selectivity of 74.6% were achieved for the Se‐Pd/Al₂O₃ catalyst after 91 h on stream. Reclamation analysis of the spent Pd/C catalyst suggested that the deactivation was mainly due to the leaching and sintering of palladium metal and the accumulation of insoluble chemicals on catalyst support also aggravated the decline of catalyst activity. When small amounts of selenium were added to the Pd/Al₂O₃ catalyst, its activity, selectivity and stability were significantly improved which indicated that a promotional effect existed for carbamate formation on a Pd‐Se catalyst system.     

聚苯胺对钯催化甲酸电氧化反应的促进作用

钯基纳米材料是甲酸电氧化反应的优良催化剂.本工作制备了两个系列钯基催化剂,并考察了聚苯胺对钯上甲酸电氧化反应的助催化作用.一种是以聚苯胺为基底,在其表面电沉积钯纳米粒子,制得nPANI/Pd催化剂(n表示聚合苯胺的循环数);另一种是直接在商业Pd/C催化剂表面电聚合苯胺,制得Pd/C/nPANI催化剂.结果显示,聚苯胺单独存在时对甲酸电氧化反应没有催化活性,但其可对钯上甲酸电氧化反应呈现明显的促进作用,且促进作用与聚苯胺的厚度(聚合循环数)密切相关.在两个系列催化剂中,15PANI/Pd和Pd/C/20PANI显示出最高的催化性能.15PANI/Pd中钯的质量比催化活性是纯钯催化剂的7.5倍; Pd/C/20PANI中钯的质量比催化活性和本征催化活性分别是商业Pd/C催化剂的2.3和3.3倍.钯催化性能的提升与聚苯胺和钯纳米粒子间的电子效应有关.     

Highly active Pd containing EMT zeolite catalyst for indirect oxidative carbonylation of methanol to dimethyl carbonate

Palladium containing EMT zeolite catalyst(Pd/EMT) was prepared and used for the indirect oxidative carbonylation of methanol to dimethyl carbonate(DMC).The EMT zeolite was employed as a new catalyst support and compared with the conventional Pd containing FAU zeolite catalyst(Pd/FAU).The Pd/EMT in contrast to the Pd/FAU catalyst exhibited high intrinsic activity with the turnover frequency of 0.25 s^-1 vs.0.11 s^-1.The Pd/EMT catalyst showed high CO conversion of 82% and DMC selectivity of 79%,that maintained for at least 130 h,while the activity of the Pd/FAU catalyst rapidly deteriorated within 12 h.The enhanced interactions between Pd and EMT zeolite inhibited the sintering of palladium clusters and maintained the Pd2+ active sites in the Pd/EMT catalyst.The stabilization of the mono-dispersed Pd clusters within the EMT zeolite is paramount to the excellent performance of the catalyst for the indirect oxidative carbonylation of methanol to DMC.