Applying a temperature ramp during chromatographic analysis allows optimization of analytical parameters to the set of compounds being detected.
Thus, in a complex mixture and for a given column, some compounds require a low column temperature to ensure their separations; while others require a higher temperature to guarantee the most punctual elution possible and ensure a fine peak by maximizing its signal to noise ratio.
In isothermal, the user must resolve to determine a temperature that represents a compromise between the lightest and heaviest compounds. See it may be necessary to add an additional module to cover the whole range of compounds.
Thanks to the temperature programming, we now have optimal conditions for the entire working range of the column.
The image above is a comparison of the same sample analyzed on the same analyzer, once with an isothermal method (in black) and once in temperature programming (in blue).
Another benefit of temperature programming is the time stability of the analyzer. This is true and notable primarily for the Molecular Sieve and PLOT columns. These columns, adapted for the separation of the smallest molecular species such as permanent gases (H2, O2, N2, CO, CH4, CO2), are sensitive to humidity (H2O) and heavier species (hydrocarbons).
Over time, in isothermal conditions, the accumulation of heavy species or moisture loads the column and the retention times change. As a result, the stability of the analyzer over time is compromised.
Temperature programming overcomes this limitation. Indeed, by applying temperature programming to each analysis, moisture and heavy species are eluted at each run and therefore do not accumulate in the column. The micro GC Fusion therefore ensures stable results over time.
A significant shift in retention times is already observed over 5 days. It is thus very difficult with an isothermal method to ensure good chromatographic performances and a good stability of the apparatus in time.
Thanks to the temperature programming applied at the end of the analysis, the micro GC Fusion allows the removal of moisture and pollutants from the column at each analysis. This prevents their accumulation. Thus, we note a shift of retention times in time much lower over more than 2 months.
The stability of the analyzer is important for continuous measurements in an industrial environment, as it ensures the availability of the analyzer.
Keywords: micro gc fusion, temperature programming, biomethane, permanent gas