Prediction of vapor-liquid equilibrium of ternary system at high pressures

Pub Date : 2023-07-20 DOI:10.24425/ATHER.2019.129545
S. Ray, V. Harsha, V. Raghavan
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Abstract

The paper presents a numerical model for analyzing vapor-liquid equilibrium of ternary (three-component) system at high pressures. The gas-phase non-idealities and solubility of gas in liquid are considered in the numerical model. The model is useful for studies involving evaporation of liquid at different pressure and temperature conditions, where the interface liquid and vapor compositions are required. At high ambient pressures, ambient gases dissolve into the liquid. Thus, even a single component liquid fuel evaporating in a high pressure ambient gas, effectively behaves like a two-component liquid system. This study considers a ternary system. The numerical model has been validated against the experimental data available in literature. The validated model is used to study the solubility of ambient gas in a binary liquid mixture at high pressures. The effects of pressure, temperature and liquid phase composition on the solubility of gas in liquid have been studied systematically.
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高压下三元体系汽液平衡的预测
本文建立了高压下三元体系汽液平衡分析的数值模型。数值模型考虑了气相非理想性和气体在液体中的溶解度。该模型适用于研究液体在不同压力和温度条件下的蒸发,其中需要液体和蒸汽的界面成分。在高环境压力下,环境气体溶解到液体中。因此,即使是单组分液体燃料在高压环境气体中蒸发,也能有效地表现为双组分液体系统。本研究考虑三元体系。数值模型与文献中的实验数据进行了对比验证。利用该模型研究了高压下环境气体在二元液体混合物中的溶解度。系统地研究了压力、温度和液相组成对气体在液相中的溶解度的影响。
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