Difference between revisions of "Modeling the Chemistry of Carbon Dioxide - Rich Phases with Impurities"
(Created page with " == Dense Phase CO2 Corrosion: Modeling the Chemistry of CO<sub>2</sub> – Rich Phases with Impurities == * Objectives: *: - Model the solubility of S<sup>o</sup> in CO<sub>...") |
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*:: Solubility of S<sup>o</sup> in H<sub>2</sub>O is important if an aqueous phase forms | *:: Solubility of S<sup>o</sup> in H<sub>2</sub>O is important if an aqueous phase forms | ||
*:: Model development requires considering the S0 – H2O system because the reference state for liquid-phase species is infinite dilution in water | *:: Model development requires considering the S0 – H2O system because the reference state for liquid-phase species is infinite dilution in water | ||
− | * S<sup>o</sup> – CO<sub>2</sub> | + | *: - S<sup>o</sup> – CO<sub>2</sub> |
*:: Solubility of S<sup>o</sup> in CO<sub>2</sub> | *:: Solubility of S<sup>o</sup> in CO<sub>2</sub> | ||
+ | *: - Redox reactions of sulfur in aqueous media | ||
+ | *:: Will be important for future modeling of reactions of SOx and NOx | ||
+ | |||
+ | * Polymeric species of sulfur | ||
+ | *: - Numerous sulfur species up to S<sub>20</sub> have been detected | ||
+ | *: - In the gas phase, eight multimers (S<sup>o</sup><sub>1</sub> through S<sup>o</sup><sub>8</sub>) have been assumed in the model | ||
+ | *:: Thermochemical data are well established for S<sup>o</sup><sub>1</sub> through S<sup>o</sup><sub>8</sub> | ||
+ | *:: S<sup>o</sup><sub>8</sub> is dominant at normal and moderate conditions | ||
+ | *:: Lower multimers become prevalent at higher temperatures | ||
+ | *: - In the pure liquid and solution phase, S<sup>o</sup><sub>8</sub> predominates | ||
+ | *: - In the CO<sub>2</sub> phase, solvated S<sup>o</sup>-CO<sub>2</sub> species may appear |
Revision as of 09:49, 4 November 2016
Dense Phase CO2 Corrosion: Modeling the Chemistry of CO2 – Rich Phases with Impurities
- Objectives:
- - Model the solubility of So in CO2 - rich phases in order to predict whether solid So can drop out in transmission lines
- - Predict whether So can undergo reactions in the presence of water
- Chemical subsystems to be modeled
- - Pure So
- Volatility of pure So provides a baseline for its solubility in gas phase
- - So – H2O
- Solubility of So in H2O is important if an aqueous phase forms
- Model development requires considering the S0 – H2O system because the reference state for liquid-phase species is infinite dilution in water
- - So – CO2
- Solubility of So in CO2
- - Redox reactions of sulfur in aqueous media
- Will be important for future modeling of reactions of SOx and NOx
- - Pure So
- Polymeric species of sulfur
- - Numerous sulfur species up to S20 have been detected
- - In the gas phase, eight multimers (So1 through So8) have been assumed in the model
- Thermochemical data are well established for So1 through So8
- So8 is dominant at normal and moderate conditions
- Lower multimers become prevalent at higher temperatures
- - In the pure liquid and solution phase, So8 predominates
- - In the CO2 phase, solvated So-CO2 species may appear