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- Posts: 2
- Joined: Wed Feb 24, 2010 9:15 pm
Hi all,
This is my first post to the forum.
We are currently looking for a good method for tracking pressure increases over time in order to monitor column lifespan. While this can be done with a chromatogram of the pressure reading, interpreting it is somewhat subjective. It would be nice to have a single number to use for trending.
We are using a Waters 2695 with Empower 2 software. It is an RP-HPLC method with a gradient elution.
My initial thought was to apply a mean smoothing to the pressure chromatogram, and then integrate the entire pressure trace (to account for the changing pressure during the gradient) as a single peak with a baseline of 0 psi. I have figured out how to force the integration as a single peak using the "Force Peak" event, but can't find a way to force a baseline of 0 psi.
If this is not possible, is there a way to extract a pressure value from a fixed time point (or even better, over a time range) and report this as a number?
Does this make sense? Any ideas? What do other folks do to track pressure increases between runs?
Thanks!
edit: I do have one semi-kludgy solution, which is to end the gradient with a short period of 0 flow rate, which should cause the pressure to drop to 0, and then force the baseline backward from that point. I'd prefer something a little cleaner though . . .
This is my first post to the forum.
We are currently looking for a good method for tracking pressure increases over time in order to monitor column lifespan. While this can be done with a chromatogram of the pressure reading, interpreting it is somewhat subjective. It would be nice to have a single number to use for trending.
We are using a Waters 2695 with Empower 2 software. It is an RP-HPLC method with a gradient elution.
My initial thought was to apply a mean smoothing to the pressure chromatogram, and then integrate the entire pressure trace (to account for the changing pressure during the gradient) as a single peak with a baseline of 0 psi. I have figured out how to force the integration as a single peak using the "Force Peak" event, but can't find a way to force a baseline of 0 psi.
If this is not possible, is there a way to extract a pressure value from a fixed time point (or even better, over a time range) and report this as a number?
Does this make sense? Any ideas? What do other folks do to track pressure increases between runs?
Thanks!
edit: I do have one semi-kludgy solution, which is to end the gradient with a short period of 0 flow rate, which should cause the pressure to drop to 0, and then force the baseline backward from that point. I'd prefer something a little cleaner though . . .
