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- Posts: 1
- Joined: Wed Oct 27, 2004 9:59 pm
Dear collegues, I am developing a method to resolve a gaseous mixtures containing mainly methane (~ 70 % molar), hydrogen (~ 15 %), argon (~ 7 %) and 4 - 4 % benzene and naphtalene, and traces (< 1 %) of other aromatic hydrocarbons. My GC has a Molsieve 13X and TCD, and a CPSil 5 CB (60 m, 100 KPa) and FID systems. My intention is to quantify relative molar fractions (e.g. C6H6:CH4) to be used in a kinetic research.
The injections are made by means of two six-way valves in series (loop volume 0.1 ml).
My problem is with the capillary/FID system.
Methane peak saturated the detector so I had to raise the split ratio; in the meanwhile, I lost definition of some small peaks (traces). I've got the following questions:
How can I get a methane peak within the range of linearity of the detector, without saturating it, and at the same time enough injection of traces to quantify them? Would the use of the split/splitless injection technique be of any help? I tried it: methane peak was reduced, and the other peaks went up. Am I overloading the column with this sample quantity?
If anybody has suggestions I'll be grateful.
Chris
The injections are made by means of two six-way valves in series (loop volume 0.1 ml).
My problem is with the capillary/FID system.
Methane peak saturated the detector so I had to raise the split ratio; in the meanwhile, I lost definition of some small peaks (traces). I've got the following questions:
How can I get a methane peak within the range of linearity of the detector, without saturating it, and at the same time enough injection of traces to quantify them? Would the use of the split/splitless injection technique be of any help? I tried it: methane peak was reduced, and the other peaks went up. Am I overloading the column with this sample quantity?
If anybody has suggestions I'll be grateful.
Chris
