Qiang Zheng, Fuxin Yang, Houzhang Tan, Xiaopo Wang
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引用次数: 0
摘要
深共晶溶剂(DES)在二氧化碳捕集领域表现出卓越的吸收性能。它被认为是替代单乙醇胺的新型绿色吸收溶剂。在工业中,水的存在不仅会影响溶剂的结构稳定性,还会影响其热物理性质。本研究制备了三种疏水性 DES。在研究其结构特征和热稳定性的基础上,测量了常压下 298.15 ∼ 338.15 K 温度范围内 DES 与水混合物的密度和粘度。结果表明,微量的水并没有破坏 DES 的结构,而是与 DES 形成了氢键。增加的水破坏了 DES 的结构,并分别与氢键供体(HBD)和氢键受体(HBA)形成氢键。此外,应用硬球模型研究了粘度,在引入二元相互作用参数后,混合物的平均绝对相对偏差降低到 4.4 ∼ 7.7 %。
Influence of water on the properties of hydrophobic deep eutectic solvent
Deep eutectic solvent (DES) shows excellent absorption performance in the field of CO2 capture. It is considered as a new green absorption solvent to replace monoethanolamine. In the industry, the presence of water not only affects the structural stability of the solvent, but also affects its thermophysical properties. In this work, three kinds of hydrophobic DES were prepared. Based on the study of their structural characteristics and thermal stability, the density and viscosity of DES with water mixture were measured in the temperature range of 298.15 ∼ 338.15 K at atmospheric pressure. It was demonstrated that the trace water did not destroy the structure of DES, but it formed hydrogen bonds with DES. The increase water destroyed the structure of DES and formed hydrogen bonds with hydrogen bond donor (HBD) and hydrogen bond acceptor (HBA), respectively. Moreover, the hard sphere model was applied to study the viscosity, and after introducing the binary interaction parameter, the average absolute relative deviation of the mixture reduced to 4.4 ∼ 7.7 %.
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