Reservoir Characterization. Группа авторов

Reservoir Characterization - Группа авторов


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Schematic illustration of GC- Fingerprint of Tertiary Oil No. 3 which is severely biodegraded.

Schematic illustration of GC- Fingerprint of Cretaceous Oil No. 3 which is not biodegraded.
Biomarker parameter Shales Carbonates
Pristane/Phytane Often ≥ 1 Often ≤ 1
Steranes/αβ-hopanes High Low
Diasteranes/steranes High Low
C24 tetracyclic/C26 tricyclic terpanes Low-medium Medium-high
C29/C30 hopanes Often low Can be high (>1)
C35 Homophone Index Often low Often high (>0.1)
Hexacyclic hopanes & benzohopanes Low High
Dibenezothiophene/phenanthrene Low (<3) High (>1; Often >3)
αββ steranes Low-medium Medium-high

       Carbonate-derived oils (Figure 4.8) often display a predominance of C29-hopane (norhopane) over C30-hopane (hopane), with C29/C30 hopane ratios above one.

       In contrast, shale-derived oils show triterpene patterns (Figure 4.9 as an example) in which C29-hopane is predominant over C30-hopane, with a C29/C30 hopane ratio being low (mostly below one).

       The Dibenzothiophene/Phananthrene ratio [10] is relatively high (mostly above 1) in carbonate oils (Figure 4.10), while those in shale-derived oils are low (mostly below 1).

Schematic illustration of triterpane fingerprint of carbonate-derived oil. Schematic illustration of triterpane fingerprint of shale-derived oil.

      Carbonate rocks contain major oil and gas deposits throughout the world. They commonly have been discounted as important source rock due to lower organic-carbon content, however, carbonate source rocks contain mostly sapropelic (oil-prone, Type II)) organic matter capable of generating significant quantities of oil.

      The objective of the study was to provide an overview of the geochemical characteristics of carbonate-derived oils collected from different wells and fields. A total of 6 Cretaceous carbonate core samples and 14 oils from Tertiary (5) and Cretaceous (9) reservoirs were investigated using advanced geochemical technologies.

      Almost all Tertiary oils in this study are severely biodegraded whereas, the Cretaceous oils are not.

      All the oils studied show biomarker parameters that are characteristic of oils derived from carbonate source rocks, such as:

       Pristane/phytane ratios below 1

       High C29/C30-hopane ratios

       Low steranes/hopanes ratios

       High C35-homohopane index values

       High dibenzothiophene/phenanthrene ratio

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