Reconstruction of geochemical characteristics of original organic matter in drilling cuttings contaminated by oil-based mud

Abstract

Oil-based drilling mud (OBM) contamination, commonly occurring in cuttings during petroleum exploration, has had been a problem seriously hindered source rock identification and evaluation. To eliminate the effect of contamination on “free” bitumen extracted directly from source rock, “enclosed” and “bound” bitumens were released from the mineral matrix by demineralization and from the kerogen structure using an improved catalytic hydropyrolysis technique, respectively. Geochemical and carbon isotopic compositions of the three types of bitumen were used to reconstruct the geochemical characteristics of original organic matter in their source rocks. Results indicate that “free” and “enclosed” bitumens have similar biomarker distributions and n-alkane δ13C values in non-contaminated cuttings, but the former is more susceptible to OBM contamination. “Enclosed” bitumen can thus be used to characterize the organic geochemistry of source rocks contaminated by OBM. The carbon isotopic compositions of individual n-alkanes in “free” and “enclosed” bitumens differ from those in “bound” bitumen, likely because of the effects of diagenesis and other secondary alteration. “Bound” bitumen is more likely to preserve the molecular carbon isotopic characteristics of original organic matter in source rocks, while the “free” and “enclosed” bitumens more represent the generation products. Based on biomarker characteristics and carbon isotopic compositions of “bound” hydrocarbons, Wenchang (WC) Formation (Fm.) source rocks in the Zhu I Depression of the Pearl River Mouth Basin (PRMB) can be divided into three types in normal medium–deep (WC–I), shore–shallow (WC-II), and special medium–deep (with different algal blooms growth rates; WC-III) lacustrine source rocks. The special medium–deep lacustrine source rocks of Wenchang Fm. are characterized by high ratio of C30 4-methylsteranes to C29 steranes (4-Me/C29 > 0.66) and heavy δ13C values (δ13Ckerogen < −26.1‰), which are obviously different from those of normal medium–deep lacustrine source rocks. The combination of “free”, “enclosed”, and “bound” hydrocarbons geochemical and isotopic compositions thus provides a comprehensive understanding of source rocks.