论流体表面张力与粘度的关系

H. Ahmari, M. C. Amiri
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引用次数: 10

摘要

将液体的表面张力和粘度联系起来不仅在概念上很重要,而且可以用来检验一些测量数据的有效性。Schonhorn修正了Pelofsky方程,引入了与液体平衡时蒸气粘度η v的概念,即γ= Aexp(-B/(η l -η v))。这个经验关系式既适用于纯组分的有机溶液,也适用于混合组分的无机溶液。由于表面张力是表面活性剂的强大功能,他们忽略了强调混合组分不能是表面活性剂。Pelofsky和Schonhorn都指出,A可以表示η=∞时液体的表面张力。他们没有成功地把熔点的温度和表面张力联系起来。本文建立了一个新的表面张力与粘度关系的经验方程,即γ((Tc - Tm)/(Tc - T)) = δ(1-β/η)。该方程不仅满足极端条件,而且揭示了δ的物理概念,即δ应等于液体熔点处的表面张力。化工研究通报18(2015)18-22
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On the relationship between surface tension and viscosity of fluids
Relating surface tension and viscosity of liquids not only is important conceptually but it can also be used to test the validity of some measured data. Schonhorn modified Pelofsky’s equation by introducing the concept of the vapor viscosity η v in equilibrium with the liquid, i.e.γ= Aexp(-B/(η l -η v )) This empirical relation can be applied to both organic and inorganic solutions of pure and mixed components. As surface tension is a strong function of surfactant, they neglected to emphasis that mixed components must not be surface active agents. Both Pelofsky and Schonhorn indicated that A may be an indication of the surface tension of the liquid at the temperature where η=∞. They were not successful in correlating the temperature where and the surface tension at the melting point. In this work, a new empirical equation for relating surface tension and viscosity has been developed, i.e., γ((Tc – Tm)/( Tc – T)) = δ(1-β/η). This equation not only satisfies the extreme conditions but it also reveals a physical concept for δ, that is, it should equal the surface tension at the melting point of the liquid. Chemical Engineering Research Bulletin 18(2015) 18-22
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