Automatic Calibration of a Geomechanical Model from Sparse Data for Estimating Stress in Deep Geological Formations

O. Andersen, M. Kelley, V. Smith, S. Raziperchikolaee
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引用次数: 1

Abstract

In this study, we demonstrate geomechanical modeling with fully automatic parameter calibration to estimate the full geomechanical stress fields of a prospective US CO2 storage site, based on sparse measurement data. The goal is to compute full stress tensor field estimates (principal stresses and orientations) that are maximally compatible with observations within the constraints of the model assumptions, thereby extending point-wise, incomplete partial stress measurement to a simulated full formation stress field, as well as a rough assessment of the associated error. We use the Perch site, located in Otsego Country, Michigan, as our case study. Input data consists of partial stress tensor information inferred from in-situ borehole tests, geophysical well logs and processing of seismic data. A static earth model of the site was developed, and geomechanical simulation functionality of the open-source MATLAB Reservoir Simulation Toolbox (MRST) used to model the stress field. Adjoint-based nonlinear optimization was used to adjust boundary conditions and material properties to calibrate simulated results to observations. Results were interpreted through a Bayesian framework. The focus of this article is to demonstrate how the fully automatic calibration procedure works and discuss the results obtained but does not attempt a detailed analysis of the stress field in the context of the proposed CO2 storage initiatives. Our work is part of a larger effort to non-invasively determine in-situ stresses in deep formations considered for CO2 storage. Guided by previously published research on geomechanical model calibration, our work presents a novel calibration approach supporting a potentially large number of linear or nonlinear calibration parameters, in order to produce results optimally agreeing with available measurements and thus extend partial point-wise estimates to full tensor fields compatible with the physics of the site.
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基于稀疏数据的深部地质力学模型自动定标
在这项研究中,我们展示了具有全自动参数校准的地质力学建模,以估计基于稀疏测量数据的美国未来二氧化碳储存场地的完整地质力学应力场。目标是在模型假设的约束下,计算与观测结果最大程度相容的全应力张量场估计(主应力和方向),从而将点方向的不完全局部应力测量扩展到模拟的全地层应力场,以及对相关误差的粗略评估。我们使用位于密歇根州奥特塞戈县的珀奇网站作为我们的案例研究。输入数据包括现场井试、地球物理测井和地震资料处理所得的局部应力张量信息。建立了现场静态地球模型,利用开源的MATLAB油藏模拟工具箱(MRST)的地质力学模拟功能对应力场进行建模。采用伴随非线性优化方法对边界条件和材料特性进行调整,使模拟结果与观测值相一致。结果通过贝叶斯框架进行解释。本文的重点是演示全自动校准程序是如何工作的,并讨论所获得的结果,但不试图在拟议的二氧化碳储存计划的背景下对应力场进行详细分析。我们的工作是一项更大的努力的一部分,即非侵入性地确定深层地层中考虑的二氧化碳储存的地应力。在先前发表的地质力学模型校准研究的指导下,我们的工作提出了一种新的校准方法,支持潜在的大量线性或非线性校准参数,以便产生与现有测量结果最一致的结果,从而将部分逐点估计扩展到与现场物理兼容的全张量场。
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