Data Assimilation of Production and Multiple 4D Seismic Acquisitions in a Deepwater Field Using Ensemble Smoother with Multiple Data Assimilation

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS SPE Reservoir Evaluation & Engineering Pub Date : 2023-05-01 DOI:10.2118/215812-pa
Daiane Rossi Rosa, D. Schiozer, A. Davolio
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Abstract

In recent years, time-lapse (4D) seismic (4DS) data have been widely used for reservoir monitoring to provide relevant information on dynamic changes occurring during production. In complex reservoirs, multiple seismic monitor surveys are usually available. Updating reservoir models with these data can be very beneficial to improve the field’s management. In the quantitative integration of 4DS data into the data assimilation (DA) process, it is crucial to define how to deal with more than one seismic monitor. In this work, we continue a series of investigations about seismic DA procedures and expand on them by analyzing ways to assimilate more than one seismic monitor. More specifically, we evaluate different ways of using production data and two monitor surveys (M3 and M5) to calibrate the dynamic models of a real Brazilian reservoir using the ensemble smoother with multiple data assimilation (ES-MDA) method. We performed the following experiments: (1) sequential assimilation of M3 and M5 with parts of well history divided according to the seismic acquisition dates; (2) assimilation of M3 with the entire well history and subsequent assimilation of M5; (3) assimilation of well and M3 data; and (4) assimilation of well and M5 data. For comparison purposes, we also assimilated only well data. From the results, we observed that well and 4DS data misfits were reduced when assimilating both monitors, compared to the cases where only a single monitor (any of them) was used with production data. This conclusion is also true in the comparison with results obtained when only assimilating well data. This indicates that both seismic monitors are important data to be quantitatively considered in DA. In this particular field, using a previous DA run to solely assimilate the newly available monitor (Case 2) delivered better models and long-term forecasts. Therefore, this would be our recommendation. This study highlights the importance of several 4DS acquisitions for reservoir monitoring and management and shows the challenges of their application in seismic DA for better life cycle field applications.
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基于多重数据同化的集成平滑器在深水油田生产和多次四维地震采集数据同化中的应用
近年来,时延(4D)地震(4DS)数据被广泛用于储层监测,以提供生产过程中动态变化的相关信息。在复杂的储层中,通常需要进行多次地震监测。利用这些数据更新储层模型,对提高油田的管理水平是非常有益的。在将4DS数据定量整合到数据同化(DA)过程中,定义如何处理多个地震监测仪是至关重要的。在这项工作中,我们继续对地震数据处理程序进行了一系列的研究,并通过分析吸收多个地震监测数据的方法对其进行了扩展。更具体地说,我们评估了使用生产数据和两次监测调查(M3和M5)的不同方法,使用多重数据同化(ES-MDA)方法的集合平滑器来校准巴西实际油藏的动态模型。进行了以下实验:(1)M3和M5的序列同化,根据地震采集日期划分部分井史;(2) M3与整个井史的同化以及随后的M5同化;(3)井和M3资料同化;(4)井和M5资料的同化。为了比较,我们也只吸收了井的数据。从结果中,我们观察到,与仅使用单个监视器(其中任何一个)处理生产数据的情况相比,在吸收两个监视器时,井和4DS数据的不匹配减少了。这一结论与只吸收井资料的结果相比较也是正确的。这表明两种地震监测仪都是数据分析中需要定量考虑的重要数据。在这个特定的领域中,使用以前的数据处理运行来单独吸收新可用的监视器(案例2)可以提供更好的模型和长期预测。因此,这是我们的建议。该研究强调了几种4DS采集对油藏监测和管理的重要性,并展示了将其应用于地震数据采集以获得更好的生命周期现场应用的挑战。
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来源期刊
CiteScore
5.30
自引率
0.00%
发文量
68
审稿时长
12 months
期刊介绍: Covers the application of a wide range of topics, including reservoir characterization, geology and geophysics, core analysis, well logging, well testing, reservoir management, enhanced oil recovery, fluid mechanics, performance prediction, reservoir simulation, digital energy, uncertainty/risk assessment, information management, resource and reserve evaluation, portfolio/asset management, project valuation, and petroleum economics.
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