基于高清频率分解、多属性分析和正演建模的油藏综合表征。Chandon Discovery,澳大利亚

A. Mantilla, P. Szafián, R. Bell
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引用次数: 0

摘要

利用先进的地震技术进行储层表征可以降低风险,提高油气勘探水平。基于地层评价、构造分析和地层表达,结合电缆测井解释、岩心描述、区域综合研究、构造和地层地震多属性分析的应用以及高清频率分解技术的发展,对黄glen- chandon天然气发现区三叠系Mungaroo组进行了综合储层表征。数据调理的初始阶段包括噪声消除和频谱增强。通过频率分解和属性组合进行地层分析,揭示了主要的储层构造要素——河道的位置和几何形状。等比例切片证实了这些地质体在储层垂直范围内的存在,并支持了构造地层历史的重建。表征涉及到油气聚集的识别。岩石物理和地震正演模拟测试了这些已识别的聚集的准确性,并证实了它们的存在。通过建立合理的弹性性质和含气饱和度假设,正演模拟在预测未钻探地区新勘探地质体的频率响应方面确实有效。最终结果是确定石油系统要素的问题和优势,并将雪佛龙的体积与本研究得出的体积进行比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated Reservoir Characterisation Using High Definition Frequency Decomposition, Multiattribute Analysis and Forward Modelling. Chandon Discovery, Australia
Reservoir characterisation using advanced seismic techniques can mitigate risk and enhance hydrocarbon exploration. This study presents an integrated reservoir characterisation of the Triassic Mungaroo Formation in the Yellowglen-Chandon gas discoveries based on formation evaluation, structural analysis, and stratigraphic expression using wireline log interpretation, core description, a synthesis of regional studies, application of structural and stratigraphic seismic multi-attribute analysis, and development of high-definition frequency decomposition. An initial stage of data conditioning covered noise cancellation and spectral enhancement. The stratigraphic analysis from frequency decomposition and attribute combination revealed the position and geometries of fluvial channels, the main reservoir architectural element. Iso-proportional slicing confirmed the presence of these geo-bodies throughout the vertical extent of the reservoir and supported the reconstruction of the tectonostratigraphic history. Characterisation involved the identification of hydrocarbon accumulations. Rock-physics and seismic forward modelling tested the veracity of these identified accumulations and corroborated their existence. Forward modelling is indeed effective in predicting the frequency response of new prospect geobodies in undrilled areas, by establishing reasonable assumptions of elastic properties and gas saturation values. The end product was the identification of issues and strengths regarding the petroleum system elements and the comparison between Chevron volumetrics and the ones derived by this study.
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