Vapor-Liquid Equilibrium in Dilute Aqueous Solutions of NH₃-SO₂-CO₂

Abstract

In the design and analysis on air washer system with pure water, we need to estimate the vaporliquid equilibrium of related systems. In this study, the vapor-liquid equilibrium for dilute aqueous solutions of volatile weak electrolytes is examined by numerical calculation and experimens. Equilibrium composition in vapor and liquid phase is calculated for NH₃-CO₂-H₂O, SO₂-CO₂-H₂O and NH₃-SO₂-CO₂-H₂0 systems. Total solute concentration, pH and vapor phase partial pressure of NH3 and SO2 are determined in dilute aqueous solutions from 10^-6 to 10^-3 mol/kg-H₂O in 23°C. Equilibrium composition is predicted and is in good agreement with experimental results in each multicomponent aqueous system. As a result, ionic dissociation and Henry's constants quoted from Edwards' correlation are available even in dilute aqueous solutions of volatile weak electrolytes. These results allow estimate of ionic dissociation and vapor-liquid equilibrium in dilute aqueous solutions of volatile weak electrolytes.