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- Posts: 5
- Joined: Wed Dec 10, 2014 3:01 pm
Hey everyone, I'm trying to set up an Agilent 6890 GC with a TCD detector to separate and detect mixtures of H2, CO, N2, and O2. Unfortunately the concentrations of H2 and CO are very low, so I need to push the limit of detection of the instrument as far as I can.
I've been using helium as a carrier gas, and I realize that the sensitivity for H2 would increase by switching carrier gases, I'm afraid that I'll lose too much sensitivity for CO.
Here's my setup:
Agilent 5A mole sieve column (25m, 530 micron)
Helium carrier gas
Inlet Temp: 250 C
Oven Temp: 70 C (no ramp)
Detector Temp: 300 C
Inlet pressure: 32.0 psi
Reference flow: 32.0 mL/min
Makeup flow: 5.0 mL/min
Splitless injection
These settings give good separation for all the peaks, but as I stated above, I'd like to push the limit of detection a bit further (especially for H2) if at all possible.
Any advice on what I can do? Thanks for the help!
I've been using helium as a carrier gas, and I realize that the sensitivity for H2 would increase by switching carrier gases, I'm afraid that I'll lose too much sensitivity for CO.
Here's my setup:
Agilent 5A mole sieve column (25m, 530 micron)
Helium carrier gas
Inlet Temp: 250 C
Oven Temp: 70 C (no ramp)
Detector Temp: 300 C
Inlet pressure: 32.0 psi
Reference flow: 32.0 mL/min
Makeup flow: 5.0 mL/min
Splitless injection
These settings give good separation for all the peaks, but as I stated above, I'd like to push the limit of detection a bit further (especially for H2) if at all possible.
Any advice on what I can do? Thanks for the help!
