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High temperature gas chromatography of high-wax oils

Proceedings Title : Proc. Indon. Petrol. Assoc., 22nd Ann. Conv., 1993

Traditional Gas Chromatographic (GC) techniques for the analysis of petroleum provide information on components with carbon numbers less than ~C35. The newly available analytical method, High Temperature Gas Chromatography (HTGC), which uses new thermally stabile GC coIumns and GC oven temperatures as high as 470oC, makes possible the routine analysis of C35 to C120, hydrocarbons present in petroleum and related materials. HTGC provides information useful in both exploration and production, and is well suited for the analysis of high-wax oils, such as those produced in Central Sumatra and surrounding areas.Paleoenvironmental information on the geologic source of oils and bitumens can be provided by HTGC analyses. One series of C40 to C60 HTGC peaks, shown to be coeluting monocyclic and acyclic branched saturated hydrocarbons of differing carbon number, often dominate HTGC profiles in this higher molecular weight range. These HTGC peaks frequently show a distinct predominance pattern in which alternating peaks are enhanced or diminished in intensity relative to neighboring peaks in the series. Saline lacustrinesourced oils show one predominance pattern for these C40 to C60 HTGC peaks, while open marine-sourced oils show the opposite Predominance pattern, oils from fresher water lacustrine sources typically show very weak lacustrine predominance patterns or no detectable predominance. The C40 to C60 predominance intensities of lacustrine oils can be affected by thermal maturation. Oil from the Salawati Basin in Irian Jaya and Telisa Shale extracts from Central Sumatra show HTGC profiles consistent with their marine sources. Central Sumatran high-wax oils show HTGC profiles consistent with a fresher water lacustrine source.Chromatographic resolution, analytical reliability, and molecular weight range differ for various HTGC columns and instrumental sample injection systems. New metal capillary columns employing on-column injection techniques provide good chromatographic resolution and long column life for analyses in the C40 to C60/C70 range, a molecular weight range suitable for many applications.

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