将均相催化剂加在寡聚或是树枝状载体上能够集中相近的活化位点,从而提高协同过程的效率。
Appending homogeneous catalysts to an oligomer IC or dendritic support can concentrate active sites close to one another and thereby enhance the efficiency of cooperative processes.
实验结果证明,除阻聚剂外,其它各物质均可与催化剂产生协同作用,不同程度地提高了稠油的降粘率。
The experiments results shows that any mass, except polymerization inhibitor, has synergetic effect with catalyst and enhanced viscosity reduction rate of extra-heavy oil.
将均相催化剂加在寡聚或是树枝状载体上能够集中相近的活化位点,从而提高协同过程的效率。
Appending homogeneous catalysts to an oligomeric or dendritic support can concentrate active sites close to one another and thereby enhance the efficiency of cooperative processes.
在合适的聚合条件下此复式催化剂具有很好的协同作用,其催化活性比任一单一催化剂的催化活性都高。
At appropriate polymerization conditions the binary catalyst system shows a good synergic effect, the polymerization activity is higher than any single catalyst.
介绍了低温等离子体与催化剂协同降低柴油机排气新装置的原理与结构。
The article introduces the principle and structure of the new exhaust emission devise on diesel vehicle which USES low temperature plasma in conjunction with catalyzer.
该催化剂采用了其有介孔结构的新型基质及优化的多活性组元配伍,与其特定的配套工艺协同作用,可达到上述预期的产品分布目标。
This catalyst adopts the new mesopore matrix and optimized multifunction activity components. With the special process, it can reach the expected production distribution.
研究结果表明,用碱作催化剂时,微波和离子液体对绝缘油的制备有协同促进作用。
The results show that, microwave and ionic liquid had synergetic effect on transesterification when using NaOH as catalyst.
结果表明,该催化剂具有高度可循环性,且负载后的催化剂的催化活性大幅度提高,这主要是由于载体与金属催化剂间的协同催化效应而引起的。
The catalytic activities of the oxide supported metal catalysts have been largely enhanced, which is attributed to the synergetic effect that occurred at the interface of metals and oxide support.
添加催化剂与微波等离子体协同分解CF4时,去除率可以提高10%左右,紫外线,高温和等离子体自身都可以激发催化剂催化分解CF4。
The DRE of CF4 is enhanced about 10%by catalysts used, the ultraviolet radiation, high temperature and plasma all can actived the catalysts to decompose CF4.
添加催化剂与微波等离子体协同分解CF4时,去除率可以提高10%左右,紫外线,高温和等离子体自身都可以激发催化剂催化分解CF4。
The DRE of CF4 is enhanced about 10%by catalysts used, the ultraviolet radiation, high temperature and plasma all can actived the catalysts to decompose CF4.
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