| 化学反应的热动力学方程及其应用 |
| Derivation and Application of Thermodynamic Equations |
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| 摘要: 材料学、电子学和计算机技术促进了微量热计对“动态热化学”的研究,该原理被应用于RD496-Ⅲ型微量热计中,由其得到的热动力学数据,依物理化学的基本原理可推导出等温等压下不可逆化学反应的热动力学研究方程,从中可简便地求出所研究反应的热动力学参数(活化焓、活化熵及活化自由能),速率常数和动力学参数(表观活化能、指前因子及反应级数),并以实验示例说明其应用。 |
| 关键词: 微量热计 不可逆化学反应 热动力学 |
| 基金项目: |
| Abstract: The study on dynamic thermochemistry for the chemical reaction with microcalorimeter have been accomplished by the combination of materials, electronics and computer technology improvements, which is displayed in RD-496Ⅲ type microcalormeter. Thermodynamic equations have been derived from the principle of physical chemistry and the detrmination results on thermochemistry for non-reversible reactions at the constant temperature and pressure. On the base of thermodynamic equations, thermodynamic parameters (the activation enthalpy, the activation entropy and the activation free energy), the rate constant, kinetic parameters (the activation energy, the pre-exponential constant and the reaction order) are procured. |
| Keywords: microcaloirmeter non-reversible chemical reaction thermodynamic |
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| 高胜利,陈三平,胡荣祖,李焕勇,史启祯.化学反应的热动力学方程及其应用[J].无机化学学报,2002,18(4):362-366. |
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