- 作者:Baptiste Bouillot ; bouillot@emse.fr" class="auth_mail" title="E-mail the corresponding author ; Jean-Michel Herri
- 关键词:Thermodynamics ; Crystallization ; Clathrate hydrates ; Flash calculations
- 刊名:Fluid Phase Equilibria
- 出版年:2016
- 出版时间:15 April 2016
- 年:2016
- 卷:413
- 期:Complete
- 页码:184-195
- 全文大小:1092 K
Therefore, the classic thermodynamic equilibrium model is combined with mass balance calculations during gas hydrate crystallization. Two frameworks for performing clathrate hydrate thermodynamic flash calculations at constant volume are presented and compared to experimental results at low crystallization rate. The inputs are the quantity of mass (water and gas molecules), and the volume. The variable is temperature (three phases thermodynamic flash at a given temperature), while the volume is kept constant.
The first framework suggests that the hydrate phase is growing at local thermodynamic equilibrium, without any reorganization of its content of the occupancy of the cavities. In the second framework, the hydrate phase can reorganize itself during growth (locally or completely). These frameworks are investigated, as well as the impact of the Kihara parameters uncertainties.
These frameworks calculate well the final pressure, hydrate composition. In addition, the hydrate volume and mole amount in each phase is provided with reasonable accuracy. Note: uncertainties on the final pressure and hydrate volume are below 5%. Moreover, the results are quite sensitives to the value of the Kihara parameters, demonstrating the importance of their values for a given computer code.
This work provides a more reallistic and comprehensive view of gas hydrate crystallization.