用热容量检验阿伦尼乌斯定律的形式基础

Denis Michel
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引用次数: 0

摘要

假设阿伦尼乌斯方程应以统计力学为基础,并具有概率性质,那么根据反应物能量是被视为特定能量分布的平均值,还是被视为全局能量分布中的特定水平,我们对该方程的两种结构进行了比较。在第一个版本中,阿伦尼乌斯指数因子是一个取决于温度一次的概率,而在第二个版本中,它是一个取决于温度两次的概率比。我们使用 2-丁烯异构化的实验数据对这些并行方程进行了检验。这一比较揭示了等温系统中阿伦尼乌斯定律的基本结构,以及在方程中引入反应物能量所产生的被忽视的性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Test of the formal basis of Arrhenius law with heat capacities
The exponential factor of Arrhenius satisfactorily quantifies the energetic restriction of chemical reactions but is still awaiting a rigorous basis. Assuming that the Arrhenius equation should be based on statistical mechanics and is probabilistic in nature, two structures for this equation are compared, depending on whether the reactant energies are viewed as the mean values of specific energy distributions or as particular levels in a global energy distribution. In the first version, the Arrhenius exponential factor would be a probability that depends once on temperature, while in the second it is a ratio of probabilities that depends twice on temperature. These concurrent equations are tested using experimental data for the isomerization of 2-butene. This comparison reveals the fundamental structure of the Arrhenius law in isothermal systems and overlooked properties resulting from the introduction of reactant energies into the equation.
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