酸催化甲酸甲酯戊酯在水-乙二醇(EG)溶剂中的溶解动力学

2020 9th International Conference System Modeling and Advancement in Research Trends (SMART) Pub Date : 2020-12-04 DOI:10.1109/SMART50582.2020.9337122

A. Singh

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引用次数: 0

摘要

报道了甲烷酸戊酯在水- eg介质中的水解动力学。随着温度的升高，有机助溶剂的加入量的增加，反应速率常数逐渐减小，这说明反应介质在初始状态下处于拯救状态，在过渡状态下处于溶解状态。反应介质的活化能也从初始态和过渡态的救赎和解离两方面进行了解释。研究了离子强度和[H+]离子对反应速率的影响，认为酸催化甲醇戊酯水解为离子偶极反应，遵循水- eg介质的AAC2机理途径。随着溶剂组成的增加(30 ~ 70%)，与过渡态相关的水分子数量随着温度的升高(20 ~ 40℃)而增加，这是由于水分子通过添加EG的平衡随着温度的升高而从致密形式转变为体积形式。

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Kinetics of Acid Catalyzed Solvolysis of Amyl Methanoate Formate in Water-ethylene Glycol (EG) Solvent

The kinetics of the hydrolysis of Amyl Methanoate in water-EG media are reported. The rate constant decreases with gradual addition of organic co-solvent with increasing temperature inferred the salvation in initial state and desolvation in transition state of reaction media. Activation energy of the reaction media has also been explained in light of salvation and desolvation of initial and transition states to different extant. Effect of ionic strength and [H+] ion on the reaction on the rate has also been studied and it is concluded that acid catalised hydrolysis of amyl methanoate is ion- dipolar reaction and it follows AAC2 mechanistic pathways of water-EG media. With increase of solvent composition (30 to 70%) the number of water molecule associated with transition state increase with rise in temperature (20 to 40°c) which attributes to the fact that equilibrium of water molecule by addition of EG, is shifted from dense form to bulky form with rise in temperature.

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2020 9th International Conference System Modeling and Advancement in Research Trends (SMART)

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