钛胶是新型有广泛用途的催化剂载体。
Titanic gel is a new catalyst support to with broad application potentials.
在石油化工中硅胶常作为烯烃聚合的催化剂载体。
Usually, silica gel used as a catalyst support for olefin polymerization in the petrochemical industry.
制备了一种用于制造球形中空催化剂载体的造孔材料。
This article researched on hollow-making martiral used for making middle-hollow round catalysis carrier.
催化剂载体的制作过程,采用自制的设备来制备蜂窝体。
The metallic honeycomb fabricated by the corrugation method via a self-designed equipment.
本发明提供了一种聚烯烃纳米级催化剂载体及其制备方法。
The present invention provides one kind of nano level catalyst carrier for polyolefin and its preparation process.
开发天然粘土矿物新型催化剂载体的工作一直为人们所重视。
The work to develop nature clay minerals as novel catalyzer carrier has been paid great attention.
应加强催化剂载体的矿物学特征与催化特性间的相互关系研究。
A study on relationship between the miner alogical characteristics and catalytic properties of catalysts should be strengthened.
本发明公开了一种煤液化油沸腾床加氢处理催化剂载体及其制备方法。
The invention discloses a catalyst carrier for coal liquification oil hydrogenation on boiling bed and the preparation method.
本文对通用汽油机尾气净化三效催化剂载体及催化剂进行了深入研究。
This paper studied the supports material of small gasoline engine exhausts purification catalysts and the small gasoline engine exhausts purification catalysts itself in detail.
综述了近年来微波在催化剂、催化剂载体制备和改性中的应用及研究进展。
Application of microwave in preparation and modification of catalysts or catalyst carriers were reviewed.
提供包括用单硅酸溶液处理载体浆料在内的生产改性催化剂载体的方法。
A process to produce a modified catalyst support including treatment of a support slurry with a solution of monosilicic acid is provided.
介绍了多孔陶瓷在催化剂载体、过滤器、隔热和耐热材料等方面的应用;
The application of porous ceramic in the fields of catalyst support, filters and thermal insulation materials are reviewed.
这很可能是炭气凝胶在燃料电池阴极催化剂载体方面取得优良性能的原因之一。
This was probably the reason for its good performance in the application of cathode catalyst support in fuel cells.
本文通过实验,探讨了制备条件对渣油加氢脱金属催化剂载体机械强度的影响。
Influence preparation of parameters on crushing strength of the support for residue oil hydrodemetalation catalysts was investigated through experiments.
设计制造了一种集催化剂载体成型、固化、老化与滤干于一体的新型连续设备。
One kind of new equipment was designed for catalyst ball shaping, solidifying, aging and filtering.
催化剂载体的孔径可以为反应物及其产物提供反应通道,影响反应的速度和效率。
The pore of catalyst carrier can provide reactant and resultant to affect the speed and efficiency of reaction.
多孔陶瓷可用作高温过滤材料、催化剂载体、燃料电池的多孔电极、生物陶瓷等。
Porous ceramics may be used as high-temperature filter, catalytic carrier, porous electrode for fuel cell, and bioceramics, etc.
此法合成的羟基磷灰石可用作由分子氧氧化一些醇类进行有机合成的催化剂载体。
This hydroxyapatite can be used to make catalytic carrier for organic synthesis of some aldehydes by catalytic oxidization of alcohols by molecular oxygen.
用于燃料电池的载体催化剂使用基于石墨的催化剂载体以增加燃料电池的耐久性。
The supported catalyst for a fuel cell USES a graphite based catalyst carrier to increase durability of the fuel cell.
本文提出了从老化催化剂载体活性炭中回收醋酸锌的方法,并对提取条件进行了讨论。
This paper introduces a method of the recovery of zinc acetate from absorbent carbon of aging catalyst carrier, and researches are made on condition of extraction.
介绍了杂多酸的基本特性及其负载型催化剂的研究进展,包括不同类型的催化剂载体。
The properties of the heteropoly acids and advances in heteropoly acids and their supported catalysts were reviewed, including different supports.
采用气凝胶与干凝胶两种催化剂载体通过化学气相淀积方法制备出螺旋状的碳纳米管。
Helical carbon nanotubes were synthesized by a chemical vapour deposition method from both silica aerogels and silica xerogels containing catalysts.
本发明适合于作吸附剂、催化剂载体、双电层电容器及合成其它介孔材料的硬模板剂等。
The invention is adapted to be used as adsorbent, catalyst support, electric double-layer capacitor and hard-template agent for synthesizing the other meso-porous material, etc.
开发对反应具有结构形貌适应性的催化剂载体,是改善催化剂反应性能的重要手段之一。
It is a very important way to improve the catalytic performance by developing the support with appropriate structure and morphology.
简要介绍了纳米技术在高分子材料改性、色谱柱填料、催化剂载体和日用化工等领域中的应用;
The application of nanometer technologies in modification of polymeric materials, chromatographic packing catalyst carriers and daily chemical industry were briefly introduced.
利用这种方法,可得探针在载体上所处微环境的信息,进而可用于指导配位聚合催化剂载体的选择。
This may serve as a new method to get micro-environment information of carriers and can be used in the choice of carriers of coordination catalysts.
利用这种方法,可得探针在载体上所处微环境的信息,进而可用于指导配位聚合催化剂载体的选择。
This may serve as a new method to get micro-environment information of carriers and can be used in the choice of carriers of coordination catalysts.
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