Mike4chemic
Chemical
- Oct 9, 2004
- 71
Hello All,
I check a feasibilty to inject a non-condensable gas (mostly CO2)into a water pipeline in continuous mode. The goal is to attain the complete dissolution of CO2 in water and further injection of carbonated water (as a single phase)undeground.
Based on my estimation at the given pressure, temperature and the water/gas ratio, there is a thermodynamic feasibility of the complete CO2 dissolution into the flowing water. The big question is how quickly it will happen ?
Is it possible to predict how far from the gas injection point, in terms of the pipe's diameters,thus the complete CO2 dissolution can be reached? Are there any empirical correlations/rules of thumbs, which allow to predict it, assuming there is a static mixer at the CO2 injection point.
Thanks in advance, Mike
I check a feasibilty to inject a non-condensable gas (mostly CO2)into a water pipeline in continuous mode. The goal is to attain the complete dissolution of CO2 in water and further injection of carbonated water (as a single phase)undeground.
Based on my estimation at the given pressure, temperature and the water/gas ratio, there is a thermodynamic feasibility of the complete CO2 dissolution into the flowing water. The big question is how quickly it will happen ?
Is it possible to predict how far from the gas injection point, in terms of the pipe's diameters,thus the complete CO2 dissolution can be reached? Are there any empirical correlations/rules of thumbs, which allow to predict it, assuming there is a static mixer at the CO2 injection point.
Thanks in advance, Mike
