This paper emphasized on the theory basics of HGMS and the principle of its application in waste FCC catalyst separation.
重点阐述了高梯度磁选的理论基础及其在FCC废催化剂中的应用原理,并详尽介绍了其工艺流程。
The solvent capacity of ionic liquid for alkane is important to he separation of the alkylate and the catalyst.
而饱和烷烃在离子液体中的溶解能力对烷基化产物和催化剂的分离十分重要。
As an important field of material science, ordered porous materials have been widely applied in the adsorption, separation and catalyst.
作为材料领域的重要分支,有序多孔材料被广泛地应用于吸附、分离和催化等领域。
Using the ionic liquids, the synthesis process became greener and simpler because of easy product separation and catalyst recycling and unnecessary use of volatile and harmful organic solvents.
使用离子液体使得合成过程变得更加绿色和简单,因为产品易分离,催化剂可以循环利用,而且不必使用挥发性有害的有机溶剂。
The Synthesising process, catalyst, reaction conditions, product separation and USES of DIPE are presented.
介绍了DIPE的生产工艺、催化剂、反应条件、产品分离及DIPE的应用情况。
Lathe spiral metal filings were used in high gradient magnetic separation machine to recover FCC catalyst and activities of the separated FCC catalysts were examined.
选用车屑螺旋状填充质高梯度磁分离对FCC废催化剂进行了分离处理,并对分离后的催化剂进行了活性检验。
The catalyst has the advantage of simplicity in operation, non-corrosive, easy separation from reaction mixtures and is reusable.
本催化剂具有操作简便、无腐蚀性,催化剂易从反应混合物中分离,并能重复使用等优点。
Enzymatic membrane bioreactor is a new type of bioreactor and has a good prospect. While biocatalysis is carried out, product separation and concentration and catalyst recovery are also operated.
酶膜生物反应器是一种新型的、有发展前途的生物反应器,它在进行生物催化的同时,也在进行产物的分离、浓缩及催化剂的回收。
Chiral ionic liquids are used as chiral solvents, catalyst carrier or chiral inducer in chiral synthesis, chiral separation, chiral catalysis and other fields.
手性离子液体可以作为手性溶剂,催化剂载体或手性诱导剂,应用于手性合成、手性分离和手性催化等领域。
Compared with other technologies, the catalyst operation period can be much longer, and the separation expenses can be decreased greatly.
采用新工艺后,催化剂操作周期比其它工艺可延长几十倍,分离费用可大幅度下降。
The paper researches into the process condition of high nickel FCC equilibrium catalyst magnetic separation recovery technology industry application.
本文研究了高镍fcc平衡剂磁分离回收技术工业化工艺条件。
It may be used in porous biological material, protein separation, chromatography, catalyst, catalyst carrier, medicine carrier, radioactive substance treatment and other fields.
所得产品可用于生物多孔材料、蛋白质分离、色谱、催化剂、催化剂载体、药物载体、放射性物质处理等众多领域。
The catalyst and the product have simple separation, and the catalyst can be repeatedly utilized.
催化剂与产物分离简单、催化剂可重复利用。
And the cerous methanesulfonate an be reused by simple phase-separation. Cerous methanesulfonate can be used as the catalyst in synthesizing other chloroacetate, the yield is over 98.0%.
反应后甲烷磺酸亚铈经过简单的相分离就可重复使用,用甲烷磺酸亚铈催化合成其它氯乙酸酯,酯化率均在98 0%以上。
And the cerous methanesulfonate an be reused by simple phase-separation. Cerous methanesulfonate can be used as the catalyst in synthesizing other chloroacetate, the yield is over 98.0%.
反应后甲烷磺酸亚铈经过简单的相分离就可重复使用,用甲烷磺酸亚铈催化合成其它氯乙酸酯,酯化率均在98 0%以上。
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