The enhanced separation offered by comprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry (GCxGC-TOF MS) has made the technique a popular choice for petrochemical analyses.
The complexity of petrochemical fractions have challenged analytical scientists to this present day. In hydrocarbon processing, dedicated analyzers are commonly used and are often based on multidimensional approaches, allowing column switching, isolation of fractions and/or column back-flushing. These analyzers are well suited for a given application but lack flexibility. Moreover, since gas valves are used to direct fractions to different columns or detectors, these valves have limitations in operating temperature, resulting in sample discrimination (of higher boiling fractions), and are also prone to adsorption of more polar or reactive solutes since they are placed inside the sample pathway.
For several reasons, there is interest to replace helium for a different carrier gas in gas chromatography. Hydrogen is the obvious choice, but there is a concern on safety and reactivity. It is also possible to use nitrogen, but this is often not considered because it has a low optimal flow and velocity.
An internationally recognised leader in analytical technology and its application in Industry from fundamental research, through process development/production, to customer support and troubleshooting. A former member of BP Science Council advising on key science and technology. Expertise in leading strategic direction to BP Group Technology Networks and developing cross business collaboration in key technology areas.
PIN 27.2 Apr/May 2026
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