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171.
在对气化焦油加氢过程中脱氨和预热器的结焦难题的研究中发现,原料油中的多环芳香烃因具有碱性,是影响脱氮反应的主要因素,采用缓和条件下的预饱和加氢反应,能除去多环芳香烃,使原料油一次加氢精制达到符合加氢裂解原料的要求.在加氢催化剂和氢压的存在下,完成原料油的升温过程,破坏了原料油结焦的外部条件,有效地解决了预热过程的结焦难题. 相似文献
172.
173.
Ying-Jiao Li Ting-Ting Qi Kun Dong Guang-Wen Chu Hai-Kui Zou Bao-Chang Sun 《American Institute of Chemical Engineers》2022,68(3):e17509
Catalytic hydrogenation of maleic anhydride (MA) into succinic anhydride (SA) is one of the most important transformations in synthetic organic chemistry. Herein, we firstly synthesized well-dispersed nickel particles confined by mixed metal oxides (Ni/MMO) derived from in situ transformation of Ni-Al hydrotalcite in a rotating packed bed (RPB) to catalyze this process. A series of Ni/MMO catalysts (63 wt%–89 wt% Ni) were effectively fabricated and the structure–activity relationship was established. Results showed that a Ni/MMO catalyst (82 wt% Ni) with substantial surface defect sites and the highest Ni surface area among the prepared Ni/MMO catalysts, demonstrates the highest activity with ~100% MA conversion and ~100% selectivity to SA under 25°C within 77 min. This is, to our knowledge, the highest conversion and selectivity under room temperature to date. Moreover, the Ni/MMO catalyst prepared by RPB has higher specific surface area and Ni surface area, therefore possessing a higher hydrogenation rate compared to that by stirred tank reactor (1.69 vs. 1.36, 10−3·molMA/gcat/min). These results will provide an attractive option of the catalysts for MA hydrogenation, and a novel strategy for synthesizing nickel catalyst derived from Ni-Al hydrotalcite. 相似文献
174.
Franco David Troncoso Ignacio Oscar Costilla Gabriela Marta Tonetto 《Journal of the American Oil Chemists' Society》2022,99(8):697-710
In the present work, Pt/γ-Al2O3 catalysts with high metal dispersion were prepared and characterized using chloroplatinic acid and platinum acetylacetonate as metal precursors. The activity and selectivity of the catalysts were evaluated in the hydrogenation of sunflower oil. A comprehensive analysis of the effects of key operational parameters on catalytic performance was carried out. The experimental variables were hydrogen pressure (275.8–551.6 kPa), temperature (160–200°C), and catalyst loading (0.005–0.015 kg Ptexp/m3oil). Platinum catalysts were active, with a double bond conversion of 28% at 2 h. The metal precursor affected catalyst selectivity. The catalyst prepared with chloroplatinic acid exhibited a lower formation of trans-isomers compared with Pt acetylacetonate. The γ-Al2O3 supported platinum catalyst with a metal loading of 0.51 wt.% and a metal dispersion of 98% maintained its initial catalyst activity and selectivity after 10 consecutive uses (1200 min accumulate operation time), without changes in its catalytic properties. The obtained results suggested that Pt catalysts are an attractive alternative to conventional nickel catalysts for the hydrogenation of vegetable oil. 相似文献
175.
采用多种包覆方法制备的核壳纳米材料具有许多优于单一材料的性能,其独特的核壳结构可产生出色的协同作用和新特性,现在已经广泛用于催化、吸附、储能与转化、药物传递和光学等领域。在CO/CO2热催化加氢反应过程中,壳层包覆可对核体粒子表面进行修饰,如改变核体的表面电荷、官能团和反应特性等,从而提高核体的稳定性与分散性。核壳催化剂可形成封闭的内部微环境以富集反应物,提高反应速率和催化活性。部分核壳催化剂甚至还能实现接力催化,并提高体系内的能量利用率。主要介绍了核壳纳米材料的常用制备方法,不同类型壳层包覆的核壳催化剂在CO/CO2热催化加氢中的应用进展,并对该领域的未来发展进行了展望。 相似文献
176.
无机金属碳酸盐是一类具有高附价值和地球储量丰富的矿物质资源,且碳酸盐热分解是制备金属氧化物的主要途径。但是,该类反应通常需要在高温、氧气气氛下焙烧获得,从而造成大量二氧化碳排放,与其相关的碳排放总量超过了全国工业碳排放的50%。为了解决这一问题,无机金属碳酸盐加氢热分解逐渐引起关注。本文首先介绍了碳酸盐加氢热分解的研究进展,进一步结合本文作者课题组近期关于电解水制氢和碳酸盐加氢还原的最新成果,提出电解水制氢耦合碳酸盐还原的观点,其有望成为制备金属氧化物的新型技术路线,对我国重排放过程工业的减排增效具有借鉴意义。 相似文献
177.
Phenol hydrogenation is a green route to prepare cyclohexanone, an intermediate for the production of nylon 66 and nylon 6. The development of high-performance catalysts still keeps a great challenge. Herein, the activated carbon (AC) was modified with an acidic material Nb2O5 to adjust the microstructure and surface properties of AC, and the influences of the calcination temperature and Nb2O5 content on the catalytic performance of the Pd/AC-Nb2O5 catalysts for the phenol hydrogenation to cyclohexanone were investigated. The Nb2O5 with proper content can be highly uniformly distributed on the AC surface, enhancing the acidity of the Pd/AC-Nb2O5 catalysts with comparable specific surface area and Pd dispersion, thereby improving the catalytic activity. The hybrid Pd/AC-10Nb2O5-500 catalyst exhibits the synergistic effect between the Pd nanoparticles and AC-10Nb2O5, which enhances the catalytic activity for the hydrogenation of phenol. Furthermore, the as-prepared Pd/AC-10Nb2O5-500 catalyst shows good reusability during 7 reaction cycles. 相似文献
178.
Ethylene is an important feedstock for various industrial processes, particularly in the polymer industry. Unfortunately, during naphtha cracking to produce ethylene, there are instances of acetylene presence in the product stream, which poisons the Ziegler–Natta polymerization catalysts. Thus, appropriate process modification, optimization, and in particular, catalyst design are essential to ensure the production of highly pure ethylene that is suitable as a feedstock in polymerization reactions. Accordingly, carefully selected process parameters and the application of various catalyst systems have been optimized for this purpose. This review provides a holistic view of the recent reports on the selective hydrogenation of acetylene. Previously published reviews were limited to Pd catalysts. However, effective new metal and non-metal catalysts have been explored for selective acetylene hydrogenation. Updates on this recent progress and more comprehensive computational studies that are now available for the reaction are described herein. In addition to the favored Pd catalysts, other catalyst systems including mono, bimetallic, trimetallic, and ionic catalysts are presented. The specific role(s) that each process parameter plays to achieve high acetylene conversion and ethylene selectivity is discussed. Attempts have been made to elucidate the possible catalyst deactivation mechanisms involved in the reaction. Extensive reports suggest that acetylene adsorption occurs through an active single-site mechanism rather than via dual active sites. An increase in the reaction temperature affords high acetylene conversion and ethylene selectivity to obtain reactant streams free of ethylene. Conflicting findings to this trend have reported the presence of ethylene in the feed stream. This review will serve as a useful resource of condensed information for researchers in the field of acetylene-selective hydrogenation. 相似文献
179.
180.
Reyila Abuduwayiti Feng-Yun Ma Xing Fan 《Frontiers of Chemical Science and Engineering》2022,16(10):1505
Four supported catalysts, nickel and ruthenium on a HZSM-5 support, were prepared by equal volume impregnation and in-situ decomposition of carbonyl nickel. The properties of catalysts were investigated by catalytic hydro-conversion of 2,2′-dinaphthyl ether as the model compound and extraction residue of Naomaohu lignite as the sample under an initial H2 pressure of 5 MPa and temperature at 150 °C. According to the catalytic hydro-conversion results of the model compound, Ni−Ru/HZSM-5 exhibited the best catalytic performance. It not only activated H2 into H···H, but also further heterolytically split H···H into immobile H‒ attached on the acidic centers of Ni−Ru/HZSM-5 and relatively mobile H+. Catalytic hydro-conversion of the extraction residue from Naomaohu lignite was further examined over the optimized catalyst, Ni−Ru/HZSM-5. Detailed molecular compositions of products from the extraction residue with and without hydrogenation were characterized by Fourier transform infrared spectroscopy and gas chromatography/mass spectrometry. The analytical results showed that the oxygen-containing functional groups in products of hydrogenated extraction residue were obviously reduced after the catalytic treatment. The relative content of oxygenates in the product with catalytic treatment was 18.57% lower than that in the product without catalytic treatment. 相似文献