Nader Y. BuKhamseen, M. Maučec, Anwar R. Awan, A. Saffar, Jorge E. Nieto
{"title":"Rigorous Multi-Variate Characterization and Modeling of Paleo Zone for Simulation Model History Matching under Reservoir Uncertainty","authors":"Nader Y. BuKhamseen, M. Maučec, Anwar R. Awan, A. Saffar, Jorge E. Nieto","doi":"10.2523/iptc-22034-ms","DOIUrl":null,"url":null,"abstract":"\n Presence of paleo zone, which frequently exists below Free-Water-Level surface, can impact dynamic reconciliation of reservoir simulation models. The process is even more challenging with embedded complex representations of reservoir connectivity (conductive fractures) and inherent uncertainty associated with geological and flow modeling. We present a rigorous approach that integrates characterization of paleo zone, parameterization of paleo zone conductivity and application of flow profiles as a guide in accelerated history matching study of large-scale Dual Porosity-Dual Permeability model. The presence of immobile oil within paleo zone can cause permeability reduction and inherently limit aquifer support to oil zone. Accordingly, such occurrence can be represented as a low permeability streak or region in the simulation model and leveraged for more accurate calibration of model injection wells located inside the paleo zone. We performed probabilistic sensitivity analysis and parameterization of paleo zone conductivity using Design of Experiments on a synthetic simulation model with optimized aquifer size and strength as the basecase. The outcome of the synthetic sensitivity scenarios using dynamic model strongly indicates that paleo zone is partially sealing. Multiple scoping runs were performed to identify appropriate permeability values required to calibrate the model. The use of multipliers in porositypermeability transform reproduces blocking or baffling effect of the paleo zone, considering this fluid will behave as part of the rock framework. Porosity and permeability were recomputed inside the paleo zone based on Bulk Volume of Water (BVW) data assessment. The higher the BVW the higher the chance to have effective communication between the oil leg and aquifer. These multipliers represent the probability of the sealing character of the paleo zone and reflect on the non-uniform distribution of accumulated hydrocarbons. Above methodology was used to define the initial set of paleo zone petrophysical property modifiers, rendering multiple model realizations within optimistic-pessimistic range. Flow profiles can be used to guide segmentation of paleo zone with preferential well injectivity to further improve the efficiency of history matching process. Our paper demonstrates a successful application of multi-variate characterization and modeling of paleo zone geometry and properties for a history match of a conceptual, complex reservoir simulation model under reservoir uncertainty. An innovative approach to probabilistic parameterization of paleo zone conductivity has contributed to a model with exceptionally high quality and rendered a reservoir simulation model with reliable predictive capability in accelerated time.","PeriodicalId":11027,"journal":{"name":"Day 3 Wed, February 23, 2022","volume":"116 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-02-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Day 3 Wed, February 23, 2022","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2523/iptc-22034-ms","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Presence of paleo zone, which frequently exists below Free-Water-Level surface, can impact dynamic reconciliation of reservoir simulation models. The process is even more challenging with embedded complex representations of reservoir connectivity (conductive fractures) and inherent uncertainty associated with geological and flow modeling. We present a rigorous approach that integrates characterization of paleo zone, parameterization of paleo zone conductivity and application of flow profiles as a guide in accelerated history matching study of large-scale Dual Porosity-Dual Permeability model. The presence of immobile oil within paleo zone can cause permeability reduction and inherently limit aquifer support to oil zone. Accordingly, such occurrence can be represented as a low permeability streak or region in the simulation model and leveraged for more accurate calibration of model injection wells located inside the paleo zone. We performed probabilistic sensitivity analysis and parameterization of paleo zone conductivity using Design of Experiments on a synthetic simulation model with optimized aquifer size and strength as the basecase. The outcome of the synthetic sensitivity scenarios using dynamic model strongly indicates that paleo zone is partially sealing. Multiple scoping runs were performed to identify appropriate permeability values required to calibrate the model. The use of multipliers in porositypermeability transform reproduces blocking or baffling effect of the paleo zone, considering this fluid will behave as part of the rock framework. Porosity and permeability were recomputed inside the paleo zone based on Bulk Volume of Water (BVW) data assessment. The higher the BVW the higher the chance to have effective communication between the oil leg and aquifer. These multipliers represent the probability of the sealing character of the paleo zone and reflect on the non-uniform distribution of accumulated hydrocarbons. Above methodology was used to define the initial set of paleo zone petrophysical property modifiers, rendering multiple model realizations within optimistic-pessimistic range. Flow profiles can be used to guide segmentation of paleo zone with preferential well injectivity to further improve the efficiency of history matching process. Our paper demonstrates a successful application of multi-variate characterization and modeling of paleo zone geometry and properties for a history match of a conceptual, complex reservoir simulation model under reservoir uncertainty. An innovative approach to probabilistic parameterization of paleo zone conductivity has contributed to a model with exceptionally high quality and rendered a reservoir simulation model with reliable predictive capability in accelerated time.
自由水位面下频繁存在的古带,会影响储层模拟模型的动态调和。由于储层连通性(导电裂缝)的复杂表征以及地质和流动建模的固有不确定性,这一过程更具挑战性。提出了一种集古带表征、古带电导率参数化和流动剖面应用于一体的严格方法,以指导大规模双孔双渗模型的加速历史拟合研究。古带内不动油的存在会导致渗透率降低,固有地限制了含水层对油层的支撑。因此,这种产状可以在模拟模型中表示为低渗透条纹或区域,并用于更准确地校准位于古带内的模型注水井。在以优化含水层尺寸和强度为基础的综合模拟模型上,采用实验设计方法对古带电导率进行了概率敏感性分析和参数化。动态模型综合敏感性情景的结果强烈表明古带是部分封闭的。为了确定校准模型所需的适当渗透率值,进行了多次范围测量。考虑到这些流体将作为岩石框架的一部分,在孔隙度-渗透率变换中使用乘数可以再现古带的阻塞或阻塞效应。根据水体积(Bulk Volume of Water, BVW)数据评估,重新计算了古带内孔隙度和渗透率。BVW越高,油腿与含水层之间有效连通的机会就越大。这些乘数反映了古带封闭性的概率,反映了油气聚集分布的不均匀性。利用上述方法定义了古带岩石物性修正因子的初始集,在乐观-悲观范围内实现了多个模型。利用流动剖面可以指导具有优先注水井的古带分段,进一步提高历史匹配过程的效率。本文展示了在储层不确定性下,将古带几何和性质的多变量表征和建模成功应用于概念性复杂储层模拟模型的历史匹配。一种创新的古带电导率概率参数化方法有助于建立高质量的模型,并使储层模拟模型在加速时间内具有可靠的预测能力。