niallmacdubhghaill
Chemical
- May 2, 2006
- 32
Hi,
Im working on trying to figure out how much N2 is required to inert a vessel such that the final O2 conc. within the vessel is <= 2%.
I have done some sums which indicate that ideally 3.5 tank volumes would be required to do this. The other engineers in my office generally agree that this is about right. (Anyone with any comments otherwise, please let me know)
The physical set up in the tanks for this purge is such that the N2 inlet and outlet are at the top of the tank.
My concern is that this arrangement would result in the possibility of a "short circuit" occuring, and that instead of achieving proper mixing and thus a uniform conc of O2 throughout the tank, there may be areas in the tank in which the O2 conc is above the 2% requirement.
There are many different tanks with many different geometries in this plant, torispherical, conical, flat bottoms and tops.
I was wondering if anyone knew of any correlations that would provide a "mixing efficiency" that would tell me what to multiply by to ensure my answer is as close to correct as possible. That is, something that would take into account the required final atmospheric composition, the vessel geometry, filling/purging rates.
For the record, the following options are not viable for operational reasons:
We cannot fill the tank with liquid first and then use N2 to displace the fluid
We cannot introduce the N2 at the bottom of the tank.
The option of running the agitators during the inertion/purging operation to promote turbulance/mixing. Does anyone have any comments on this idea, i.e. is it a good/bad/indifferent idea to run an agitator like this when it is designed to agitate a liquid at least as viscous as water, sometimes much more so.
Please note that this is a very general question as we are dealing with many different vessels & configurations.
Any input is greatly appreciated.
Im working on trying to figure out how much N2 is required to inert a vessel such that the final O2 conc. within the vessel is <= 2%.
I have done some sums which indicate that ideally 3.5 tank volumes would be required to do this. The other engineers in my office generally agree that this is about right. (Anyone with any comments otherwise, please let me know)
The physical set up in the tanks for this purge is such that the N2 inlet and outlet are at the top of the tank.
My concern is that this arrangement would result in the possibility of a "short circuit" occuring, and that instead of achieving proper mixing and thus a uniform conc of O2 throughout the tank, there may be areas in the tank in which the O2 conc is above the 2% requirement.
There are many different tanks with many different geometries in this plant, torispherical, conical, flat bottoms and tops.
I was wondering if anyone knew of any correlations that would provide a "mixing efficiency" that would tell me what to multiply by to ensure my answer is as close to correct as possible. That is, something that would take into account the required final atmospheric composition, the vessel geometry, filling/purging rates.
For the record, the following options are not viable for operational reasons:
We cannot fill the tank with liquid first and then use N2 to displace the fluid
We cannot introduce the N2 at the bottom of the tank.
The option of running the agitators during the inertion/purging operation to promote turbulance/mixing. Does anyone have any comments on this idea, i.e. is it a good/bad/indifferent idea to run an agitator like this when it is designed to agitate a liquid at least as viscous as water, sometimes much more so.
Please note that this is a very general question as we are dealing with many different vessels & configurations.
Any input is greatly appreciated.
