1·Activation energy of flux lines was gained.
求得了磁通运动的激活能。
2·The activation energy, before you can have reaction.
这就是反应发生之前的活化能。
3·The activation energy and the mobility are calculated.
计算出相应的激活能与迁移率。
4·The corresponding activation energy were also determined.
测定了各体系反应的活化能。
5·Apparent warp activation energy theory for food drying was carried out.
对食品干燥进行了偏移活化能理论分析。
6·The rate constant, activation energy and kinetics equation were obtained.
最后得速率常数、活化能及动力学方程序。
7·Reaction apparent activation energy and frequency factor were calculated.
求得了反应的表观活化能及频率因子。
8·The influential factors of average activation energy are discussed in this paper.
对源岩平均活化能的影响因素进行了讨论。
9·There was a relationship between the conductance activation energy and detergency.
电导活化能与洗涤效果之间有一定的关系。
10·The values of apparent activation energy and reaction rate constant were calculated.
计算了初始阶段的反应速度常数和表观活化能;
1·The influential factors of average activation energy are discussed in this paper.
对源岩平均活化能的影响因素进行了讨论。
2·Apparent activation energy calculating results show that the high reactive coal can improve the ignition property of blended coals and moreover there exists an optimum blending ratio.
表观活化能的计算结果表明高活性煤种的存在可以很好的改善混煤的着火性能,并且存在最佳掺混比例。
3·The pyrolysis, ignition and burnout characteristics and activation energy of three kinds of brown coal and their blends were studied by thermogravimetric analysis.
利用热重分析法对三种褐煤及其混煤的热解、着火和燃尽等燃烧特性及其活化能进行了研究。
4·There was a relationship between the conductance activation energy and detergency.
电导活化能与洗涤效果之间有一定的关系。
5·The kinetic mechanisms of dissolution and crystallization reactions have been confirmed according to order reaction, activation energy and effect of stirring.
依据反应级数、活化能及搅拌效应,确定了该复盐的溶解和转化结晶反应动力学机制。