Chapter 4

Source Rocks, Types and Petroleum Potential

Henrik I. Petersen

Abstract

Petroleum generating source rocks can be lacustrine, marine shale, marine carbonate or terrigenous/coaly, generally corresponding to Type I, Type II, Type II-S and Type III kerogen based on source rock screening data (Rock-Eval pyrolysis and TOC determination) plotted in modified van Krevelen diagrams. Rock-Eval and similar pyrolysis techniques are relatively cheap and allow analysis of many samples. However, the pyrolysis method can be problematic as it provides bulk geochemical data of the kerogen composition, which may lead to incorrect kerogen typing. This is particularly an issue for rocks with mixed kerogen compositions or for rocks with a deteriorated source potential due to, for example, slight oxidation of organic matter. Organic petrography in incident white light and fluorescing-inducing blue light of the macerals in source rocks adds granularity to the bulk geochemical characterization and is thus a strong supplementary tool for characterizing kerogen. Petrographic examination of source rocks can inter alia: (1) enhance kerogen characterization by providing qualitative or quantitative information on the maceral composition, including the proportions of oil-prone sapropelic and refractory kerogen, (2) identify mixtures of organic matter types or even slight oxidation of the sapropelic kerogen due to reduced fluorescence intensity and thereby prevent incorrect interpretations of kerogen, (3) document lateral and vertical organic facies variations within source rocks, and (4) provide evidence for petroleum generation by identifying oil droplets, oil films, solid bitumen, exsudatinite, micrinite or pyrolytic carbon. Despite the fact that reflected light microscopy is more expensive, time-consuming and complex than classic geochemical kerogen typing examination of representative or problematic source rock samples may provide just the missing piece that is required to better understand source rock composition and quality.

Total Pages: 104-130 (27)

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