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- This article mainly introduces the original meaning of Svante, Arrhenius' Activation Energy. 介绍了阿累尼乌期活化能的原意。
- The calculated Arrhenius activation energy Ep (principal phases) and Er (residual phases) was 77.13 KJ/mol and 156.7KJ/mol, respectively. 大量脱木素阶段和残余脱木素阶段的活化能分别为77.;13KJ/mol和156
- Results of IR and SEM have proved that marterial obtained was the copolymers, Based on the formula of Arrhenius activation energy of initiation was calculated. 红外、电镜确证了研究所得材料为丙烯腈在丝素上的接枝共聚物。
- Arrhenius activation energy [化] 阿仑尼乌斯活化能
- And the apparent activation energy was calculated by the Arrhenius equation. 并利用 Arrhanius 方程测定了表观活化能。
- (3) Reaction rate constant, Arrhenius activity energy and reaction order of low temperature oxidation were acquired through oxidation experimentm of oxygen and dead oil. (3)由氧化反应动力学实验获得了该原油的低温氧化反应速度常数、阿仑尼乌斯活化能、指前因子和反应级数。
- The activation energy of transport is 36. 6kJ/mol according to Arrhenius equation. 从Arrhenius关系得到的迁移活化能为36.;6kJ/mol。
- The apparent activation energy on the Ni-MoOx(6h) catalyst obtained through the Arrhenius equation is 35.3 kJ/mol. 相应Ni-MoO_x催化剂上正庚烷异构化的反应活化能为35.;3 kJ/mol。
- Its reaction constant K, rate constant k_1, activation energy E_(a.1) and Arrhenius factor k_(0.1) were determined. 测定了其反应常数K、速度常数k_1、活化能E_((?) ,1)及频率因子k_(0,1)。
- From the annealing curves and Arrhenius relation, the activation energy was estimated to be 80 Kcal/mole. 并根据退火曲线和Arrhenius关系,估算了其激活能为80千卡/摩尔。
- The activation energy of vulcanization of CPE/NBR blend was obtained using Arrhenius formula. 根据阿累尼乌斯公式,求出CPE/NBR并用胶硫化反应活化能。
- The activation energy and the frequency factor of the reaction were calculated by Arrhenius formula. 并通过阿仑尼乌斯方程求得不同反应条件下的聚合活化能和表观反应速率常数。
- The activation energy of carbon gasification and surface reaction calculated with Arrhenius equation ranged between 227.70~294.14 kJ/mol. 根据Arrhenius方程计算出的碳气化反应和界面反应活化能分别为227.;7和294
- From the Arrhenius curve for the grafting of acrylic acid with PVF, the overall activation energy for this system was 5.8kcal/mol. 由PVF接枝丙烯酸的Arrhenius曲线求得该体系的总活化能为5.;8kcal/mol。
- ENZYMES enhance reaction rates by lowering the activation energy. 酶可以使反应的活化能降低从而加快反应速率。
- The overall activation energy of copolymerization is 3. 5 kcal/mol. 聚合总活化能为3.;5千卡/克分子
- The kinetics was characterized by Arrhenius equation and the activate energy was solved(39.46 kJ/mol). 利用Arrhenius方程可表征该反应动力学的特征;并可求出交联反应的活化能(39.;46 kJ/mol);
- The ratios of frequency factors A ii / A ij and the differences of activation energies ( E ii - E ij ) are calculated by Arrhenius equation. 并根据 Arrhenius方程计算了该体系均聚、共聚反应频率因子之比 Aii/Aij和活化能之差 Eii- Ei
- The order of sulphuration reaction for H_2S is one under the condition in excess amount of H_2. The relation between activation energy obtained and temperature follows the Arrhenius Law. 在H_2气充分过量的情况下关于H_2S为一级反应.;回归出的活化能与温度的关系服从阿仓尼乌斯定律
- The rate of reaction in respect to temperature follows Arrhenius Equation closely, and the activity energy obtained by calculation is 14.5 kcal/mol. 反应速度与温度的关系符合Arrhenius方程式。 求得活化能为14.;5 kcal/mol。
