Kinetics of 1-pentanol etherification without water removal

机译：不脱水的1-戊醇醚化动力学

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The effect of water on the kinetics of the liquid-phase dehydration of 1-pentanol to di-n-pentyl ether (DNPE) and water over Amberlyst 70 is revisited. To explain the strong inhibitor effect of water, two approaches were compared. First, a model stemming from a Langmuir-Hinshelwood-Hougen-Watson (LHHW) mechanism was used, wherein the inhibitor effect of water was explained by the competitive adsorption of water and pentanol. Second, a modified Eley-Rideal (ER) model was used that includes an inhibition factor, in which a Freundlich-like function is used to explain the inhibitor effect of water by blocking the access of pentanol to the active centers. Both models fitted data quite well, although the best results were obtained with the modified ER model. The activation energy was 118.7 ± 0.2 kJ/mol for the LHHW model and 114.0 ± 0.1 kJ/mol for the modified ER one.

机译：考察了水对在Amberlyst 70上1-戊醇液相脱水成二正戊基醚（DNPE）和水的动力学的影响。为了解释水的强抑制剂作用，比较了两种方法。首先，使用源自Langmuir-Hinshelwood-Hougen-Watson（LHHW）机制的模型，其中水的抑制剂作用是通过水和戊醇的竞争性吸附来解释的。其次，使用包含抑制因子的改良Eley-Rideal（ER）模型，其中使用Freundlich样功能通过阻止戊醇接近活性中心来解释水的抑制作用。尽管使用改进的ER模型获得了最佳结果，但两个模型都很好地拟合了数据。 LHHW模型的活化能为118.7±0.2 kJ / mol，而改良的ER 1的活化能为114.0±0.1 kJ / mol。

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Bringue Tomás Roger; Ramírez Eliana; Fité Piquer Carles; Iborra Urios Montserrat; Tejero Salvador Xavier;
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年度 2016
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2. Water effect on the kinetics of 1-pentanol dehydration to di-n-pentyl ether (DNPE) on amberlyst 70 [J] . R. Bringue, J. Tejero, M. Iborra Topics in Catalysis . 2007,第1a4期

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Kinetics of 1-pentanol etherification without water removal

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