4.6 Article

Direct hydrocarbon identification in shale oil reservoirs using fluid dispersion attribute based on an extended frequency-dependent seismic inversion scheme

期刊

PETROLEUM SCIENCE
卷 20, 期 3, 页码 1532-1545

出版社

KEAI PUBLISHING LTD
DOI: 10.1016/j.petsci.2022.12.011

关键词

Shale oil; Fluid dispersion attribute; Hydrocarbon identification; Frequency-dependent inversion; Rock physics

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The identification of hydrocarbons in shale oil reservoirs using seismic methods is challenging due to the similarity in elastic properties of oil-bearing and water-bearing shales, as well as the complexity of organic matter properties. However, the inelastic properties associated with oil saturation can be utilized for hydrocarbon identification. A seismic inversion scheme based on fluid dispersion attribute was proposed, which showed better results in estimating hydrocarbon enrichment compared to conventional approaches.
The identification of hydrocarbons using seismic methods is critical in the prediction of shale oil res-ervoirs. However, delineating shales of high oil saturation is challenging owing to the similarity in the elastic properties of oil-and water-bearing shales. The complexity of the organic matter properties associated with kerogen and hydrocarbon further complicates the characterization of shale oil reservoirs using seismic methods. Nevertheless, the inelastic shale properties associated with oil saturation can enable the utilization of velocity dispersion for hydrocarbon identification in shales. In this study, a seismic inversion scheme based on the fluid dispersion attribute was proposed for the estimation of hydrocarbon enrichment. In the proposed approach, the conventional frequency-dependent inversion scheme was extended by incorporating the PP-wave reflection coefficient presented in terms of the effective fluid bulk modulus. A rock physics model for shale oil reservoirs was constructed to describe the relationship between hydrocarbon saturation and shale inelasticity. According to the modeling results, the hydrocarbon sensitivity of the frequency-dependent effective fluid bulk modulus is superior to the traditional compressional wave velocity dispersion of shales. Quantitative analysis of the inversion re-sults based on synthetics also reveals that the proposed approach identifies the oil saturation and related hydrocarbon enrichment better than the above-mentioned conventional approach. Meanwhile, in real data applications, actual drilling results validate the superiority of the proposed fluid dispersion attribute as a useful hydrocarbon indicator in shale oil reservoirs.& COPY; 2022 The Authors. Publishing services by Elsevier B.V. on behalf of KeAi Communications Co. Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/ 4.0/).

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