A computationally efficient inorganic atmospheric aerosol phase equilibrium model (UHAERO)
Abstract
A variety of thermodynamic models have been developed to predict inorganic gas-aerosol equilibrium. To achieve computational efficiency a number of the models rely on a priori specification of the phases present in certain relative humidity regimes. Presented here is a new computational model, named UHAERO, that is both efficient and rigorously computes phase behavior without any a priori specification. The computational implementation is based on minimization of the Gibbs free energy using a primal-dual method, coupled to a Newton iteration. The mathematical details of the solution are given elsewhere. The model also computes deliquescence and crystallization behavior without any a priori specification of the relative humidities of deliquescence or crystallization. Detailed phase diagrams of the sulfate/nitrate/ammonium/water system are presented as a function of relative humidity at 298.15 K over the complete space of composition.
Additional Information
© 2005 Author(s). This work is licensed under a Creative Commons Attribution, NonCommercial and ShareAlike Licence. Received: 17 August 2005 – Accepted: 13 September 2005 – Published: 28 September 2005 This work was supported by US Environmental Protection Agency grant X-83234201. The authors thank S. L. Clegg for providing the code for the PSC model based activity coefficient calculation.Attached Files
Published - AMUacpd05.pdf
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Additional details
- Eprint ID
- 1951
- Resolver ID
- CaltechAUTHORS:AMUacpd05
- X-83234201
- Environmental Protection Agency (EPA)
- Created
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2006-02-25Created from EPrint's datestamp field
- Updated
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2019-10-02Created from EPrint's last_modified field