岩石物理教程,经验教训和评估工作流程:Power河流域的案例研究

S. Perry, M. White
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摘要

其目的是为读者和科学界提供知识和具体适用的方程,从而重现粉末河流域的关键岩石和流体属性。然后继续解开盆地及其潜力(包括常规和非常规)。总体目标是确保岩石物理工作流程的知识传递和交流,从而影响到全球其他盆地的应用。Powder River盆地位于蒙大拿州东南部和怀俄明州东北部,是一个丰富的油气(含油气)沉积盆地,与大落基山脉链/系列含油气盆地(如Big Horn, greater Green River, Denver-Jules)有关。本文简要介绍了粉河盆地的地质背景及其在区域尺度上进行地下岩石物理评价的重要性和相关性。通过结合确定性和基于反演的工作流程,对大约200口井进行了岩石物理评估,以分享最佳实践、方法和相关趋势,以便在盆地中应用,以揭示地层油气潜力。广泛的工作流程包括基本的岩石物理方法,如原始测井曲线的适用截止点和粘土体积的测定,以及通过地球化学性质推导和这些性质的影响,以及束缚水和自由烃的理解,将知识和应用扩展到高级岩石物理中。岩石物理分析结果强调了常规和非常规地层(例如Niobrara)的不同性质。岩石物理方法是如何校准的,为什么要校准,然后应用,这些都是主要的工作。
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Petrophysical Tutorial, Lessons Learned, and Evaluation Workflow: A Case Study in the Power River Basin
The objective is to empower the reader and scientific community with the knowledge and specific applicable equations to then reproduce the critical rock and fluid attributes in the Powder River Basin. To then continue to unravel the basin and its potential (both conventionally and unconventionally). The overall goal is to ensure the transfer of knowledge and communication of a petrophysical workflow that can then also influence application to other basins worldwide. The Powder River Basin is in southeast Montana and northeast Wyoming and is a prolific oil and gas (hydrocarbon-prone) sedimentary basin related to the greater Rockies chain/series of hydrocarbon-bearing basins (ex. Big Horn, Greater Green River, Denver-Jules). In this study, we briefly set-up the geological background of the Powder River Basin and the importance/ relevance to then tackling subsurface petrophysical evaluation on a regional scale. Approximately, 200 wells were evaluated petrophysically by a combined deterministic and inversion-based workflow representing an effort to share best practices, approaches, and the relative trends to apply in the basin to unravel the stratigraphic hydrocarbon potential in place. An extensive workflow involving basic petrophysical approaches such as raw log applicable cutoffs and volume of clay determination are shared as well as extending knowledge and application into advanced petrophysics through geochemical property derivation and impact of those derived properties as well as bound versus free water and hydrocarbon understanding. Results of the petrophysical analysis highlight the varying properties in conventional and unconventional formations (example Niobrara). The results of how and why the petrophysical approach was calibrated and then applied are the primary efforts accomplished.
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