HCL SOLUBILITY AND LIQUID DIFFUSION IN AQUEOUS SULFURIC-ACID UNDER STRATOSPHERIC CONDITIONS

The solubility of HCI in cold H2SO4/H2O solutions is central to an ass essment of the role of stratospheric aerosol in polar ozone destructio n. The interpretation of laboratory measurements of HCI uptake by aque ous H2SO4 requires a knowledge of (1) HCI solubility and (2). the HCI liquid phase diffusion coefficient. Neither quantity is easily determi ned because of the high H2SO4 concentration and low temperature of the solutions, making experimental data difficult to evaluate and to appl y to the real stratospheric situation. To avoid these difficulties, we have used a new thermodynamic model for an improved estimate of HCI s olubility, and a viscosity-based cubic cell model to obtain the diffus ion coefficient. The calculated HCI solubility in aqueous H2SO4 below 200 K is up to three orders of magnitude greater than previously thoug ht. This might promote chlorine activation particularly during volcani cally perturbed periods with an enhanced stratospheric aerosol loading .