黑海近海上白垩统致密储层的开发为一成熟资产增加了生命

I. Mitrea, R. Cataraiani, M. Banu, S. Shirzadi, W. Renkema, O. Hausberger, M. Morosini, G. Grubac
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引用次数: 0

摘要

该上白垩统储层以粉砂、泥灰岩、泥质灰岩和砾岩为主,是该区3个产油油藏中的优势储层。另外两个,阿尔比安和始新世,已经枯竭,不是油田重新开发的重点。本文阐述了该油藏在再开发过程中所面临的挑战和机遇,如枯竭、低产能区、岩性、地震分辨率和增产效果。从历史上看,上白垩纪井的产量不能证明资产的经济寿命。随着近年来新压裂技术的发展,再开发的重点是用水平多级水力压裂井取代旧的垂直/斜度单级增产低产井。项目团队整合了各种学科和方法,通过重新处理旧地震来提高分辨率和信号,将沉积学研究与岩心、XRF、XRD和薄片分析结合起来,进行岩石物理评价和定量地球物理分析,然后为地质和地质力学模型提供属性,以优化井规划和裂缝布置。自2017年底至2021年年中,已经钻了7口井,证明了在现有枯竭的成熟油田开发中整合和适当规划的价值。根据现有井的枯竭情况对井和裂缝的布置进行了优化,从而进入了具有原始油藏压力的区域,而老井没有有效地排干这些区域。将井的生产动态与每个压裂阶段的示踪剂结果以及测井的核磁共振/声学图像相结合,增强了对岩相对增产的影响的理解。这可以更好地评估和预测井的性能,最终改善井的布置和增产设计。本文的实例突出了综合地震再处理、属性分析、生产技术、沉积学、岩屑分析和定量岩石物理在表征储层非均质性方面的价值,最终有助于在有现有生产商的枯竭储层中找到“甜点”,并加深对上白垩统开发潜力的认识。2017-2021年的油井产量占该资产石油总产量的30%以上,扭转了石油产量下降的趋势。此外,由于有效泄油面积更大,这些井的初始产量是单口压裂井的2 - 4倍。本文强调了三个新颖的领域。声波成像/核磁共振测井在水平井段岩相识别和压裂策略优化中的应用水力压裂性能的示踪剂分析,结合地震和岩石物理分析,根据岩石类型对产能进行分类。考虑到流体和支撑剂体积的变化,在不影响裂缝几何形状的情况下优化裂缝布置,并通过定制的泵送方法避免裂缝驱动的负面相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Tight Upper Cretaceous Reservoir in Offshore Black Sea Adds Life to a Mature Asset
This Upper Cretaceous reservoir, a tight reservoir dominated by silt, marl, argillaceous limestone and conglomerates in Black Sea Histria block, is the dominant of three oil-producing reservoirs in Histria Block. The other two, Albian and Eocene, are depleted, and not the focus of field re-development. This paper addresses the challenges and opportunities that were faced during the re-development process in this reservoir such as depletion, low productivity areas, lithology, seismic resolution, and stimulation effectiveness. Historically, production from Upper Cretaceous wells could not justify the economic life of the asset. As new fracturing technology evolved in recent years, the re-development focused on replacing old, vertical/deviated one-stage stimulations low producing wells with horizontal, multi-stage hydraulic fractured wells. The project team integrated various disciplines and approaches by re-processing old seismic to improve resolution and signal, integrating sedimentology studies using cores, XRF, XRD and thin section analysis with petrophysical evaluation and quantitative geophysical analyses, which then will provide properties for geological and geomechanical models to optimize well planning and fracture placement. Seven wells drilled since end of 2017 to mid-2021 have demonstrated the value of integration and proper planning in development of a mature field with existing depletion. Optimizing the well and fracture placement with respect to depletion in existing wells resulted in accessing areas with original reservoir pressure, not effectively drained by old wells. Integrating the well production performance with tracer results from each fractured stage, and NMR/Acoustic images from logs enhanced the understanding of the impact of lithofacies on stimulation. This has allowed better assessment and prediction of well performance, ultimately improving well placement and stimulation design. The example from this paper highlights the value of the integrating seismic reprocessing, attribute analysis, production technology, sedimentology, cuttings analysis and quantitative rock physics in characterizing the heterogeneity of the reservoir, which ultimately contributed to "sweet spot" targeting in a depleted reservoir with existing producers and deeper understanding of the development potential in Upper Cretaceous. The 2017-2021 wells contribute to more than 30 percent of the total oil production in the asset and reverse the decline in oil production. In addition, these wells have two to four times higher initial rates because of larger effective drainage area than a single fracture well. Three areas of novelty are highlighted in this paper. The application of acoustic image/NMR logging to identify lithofacies and optimize fracturing strategy in horizontal laterals. The tracers analysis of hydraulic fracture performance and integration with seismic and petrophysical analysis to categorize the productivity with rock types. The optimization of fracture placement considering the changes of fluid and proppant volumes without compromising fracture geometries and avoiding negative fracture driven interactions by customized pumping approach.
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