The recent development of cobalt-based catalysts in the Fischer-Tropsch synthesis is reviewed.
综述了近年来钴基催化剂在费托合成反应中的研究进展。
The downside to Fischer-Tropsch is that it’s an energy-intensive and therefore expensive chemical process.
费希尔-特罗普希法的缺点在于,它是一种能源密集型、也因此昂贵的化学工艺。
Sulfur poisoning, coking, sintering of Fischer-Tropsch synthesis (FTS) catalyst were discussed in this paper.
本文对F - t合成催化剂硫中毒、结焦、烧结等催化剂失活原因进行了探讨。
The alcohol mixtures are preferably produced by hydroformylation of octene rich streams formed by Fischer-Tropsch synthesis.
该醇混合物优选通过由费-托合成所形成的富含辛烯的料流的加氢甲酰化制成。
The effects of component impregnation sequence on catalytic performance and product distribution for Fischer-Tropsch synthesis are studied.
采用浸渍法制备钴基催化剂,考察了催化剂组分浸渍次序对其F-T合成反应性能和产物分布的影响。
Compared with microporous and amorphous support, mesoporous support with middle pore size will have special effect on Fischer-Tropsch synthesis.
与微孔及无定形载体相比,介孔分子筛适中的孔径对F - T合成有其独特的影响。
When said catalyst is used for making Fischer-Tropsch synthesis reaction, as compared with skeleton iron it possesses high activity and selectivity.
该催化剂用于费托合成反应时,具有比骨架铁高的活性和选择性。
The Fischer-Tropsch synthesis was studied in an integral fixed-bed reactor with the un promoted precipitated iron catalyst under the high temperature.
研究了高温条件下无助剂沉淀铁催化剂在固定床积分反应器中的F-T合成反应。
The effects of an improved dehydration way on structural properties and Fischer-Tropsch(F-T) synthesis performance of an iron-based catalyst were studied.
研究了一种改进的脱水方式对费托(F-T)合成铁基催化剂结构性质与催化性能的影响。
Thus, the synthesized cobalt-based catalysts are ideal Fischer-Tropsch synthesis catalysts due to their high activity, selectivity and performance stability.
由此可见,我们制备的钴基催化剂具有高活性,高选择性和高稳定性,是一种理想的费托合成催化剂。
Important requirement of the reactor for Fischer Tropsch process is to remove the heat of the reaction.
反应堆的重要需求费托法是消除反应的热量。
Important requirement of the reactor for Fischer Tropsch process is to remove the heat of the reaction.
反应堆的重要需求费托法是消除反应的热量。
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