Case B: UT-CSEE result 2

These results were submitted by UT-CSEE. For more information about UT-CSEE and how the simulations were performed, see the UT-CSEE group page.

Overview animation

The animation below shows the migration of CO₂ in the domain over time, plotted as the mass fraction of CO₂ in the liquid phase. The animation starts at the initial state and ends at the end of the migration period. We also plot the amount of dissolved CO₂ in the liquid phase in the two reporting boxes A and B, as well as the mobile CO₂ in the gas phase. Note that the playback speed is slower during injection than during migration.

CO₂ mass fraction in liquid

The mass fraction of CO₂ in the liquid phase is shown below.

30 years: 5 years after start of second injector

50 years: End of injection

100 years

End of migration

Gas saturation

The free gas volume fraction in the porous medium.

30 years:

End of injection

100 years:

End of migration

Water density

The water density depends on the pressure, temperature and the amount of CO₂ that has been dissolved in the water phase

30 years:

End of injection

100 years:

End of migration

Thermodynamic state variables

Total mass of CO₂

The total mass of CO₂ in kilograms per cell is shown below. This is the absolute mass of CO₂ and indicates where the CO₂ is located in the domain.

30 years

50 years: End of injection

100 years

1000 years: End of migration

Pressure

The reported pressure in Pascal is shown below. This is the pressure of the water phase.

30 years

50 years: End of injection

100 years

1000 years: End of migration

Temperature

The reported temperature in degrees Celsius is shown below.

30 years:

50 years: End of injection

100 years:

1000 years: End of migration

H₂O mass fraction in vapor

A small amount of H₂O can vaporize into the gas phase. The mass fraction of H₂O in the gas phase is shown below.

30 years:

End of injection

100 years:

End of migration

Gas density

The gas density depends only on pressure and temperature in this model.

30 years:

End of injection

100 years:

End of migration