Discrete Measurements of the Least Horizontal Principal Stress from Core Data: An Application of Viscoelastic Stress Relaxation

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS
K. McCormack, J. McLennan, E. Jagniecki, B. McPherson
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引用次数: 1

Abstract

The emerging Paradox Oil Play in southeastern Utah is among the most significant unconventional plays in the western USA. The mean total undiscovered oil resources within just the Pennsylvanian Cane Creek interval of the Paradox Basin are believed to exceed 215 million barrels. However, to date, less than 5% (~9 million barrels) of the total Cane Creek resource has been produced from fewer than 40 wells, and only approximately one-half of those are horizontal wells. More than 95% of production is from the central Cane Creek Unit (CCU). Natural fractures are a key feature of many production wells, but stimulation by induced hydraulic fractures is not consistently successful. We hypothesize that more effective production in this play will rely on better fundamental characterization, especially on better quantification of the state of stress. Approximately 110 ft of core, well logs, and a diagnostic fracture injection test (DFIT) were acquired from the State 16-2 well within the CCU. With these data, we applied two methods to constrain and clarify the state of stress. The first technique, the Simpson’s coefficient method, provides lower bounds on the two horizontal principal stresses and relies on only limited data. Alternatively, the viscoelastic stress relaxation (VSR) method is used to estimate the least horizontal principal stress, building on observations that principal stresses become more isotropic as the viscous behavior of a rock is more pronounced. Results of these two methods support the hypothesis that the state of stress in the CCU of the Paradox Basin is nearly lithostatic and isotropic. Other factors consistent with this hypothesis include high formation pore pressure, which tends to reduce the possible stress states by changing the frictional failure equilibrium; lack of induced fractures in the core, which should be present in the case of stress anisotropy; and interbedded halite layers, which given their high degree of ductility, probably lead to greater VSR for the entire sedimentary package.
从岩心数据离散测量最小水平主应力:粘弹性应力松弛的应用
犹他州东南部的Paradox油区是美国西部最重要的非常规油区之一。据估计,仅在Paradox盆地的pennsylvania Cane Creek区间内,平均未发现的石油资源总量就超过2.15亿桶。然而,到目前为止,甘蔗溪地区只有不到40口井产出了不到5%(约900万桶)的原油,其中只有大约一半是水平井。超过95%的产量来自中央甘蔗溪单元(CCU)。天然裂缝是许多生产井的关键特征,但诱导水力裂缝的增产并不总是成功的。我们假设,更有效的生产将依赖于更好的基本特征,特别是更好的应力状态量化。从CCU内的State 16-2井中获得了大约110英尺的岩心、测井数据和诊断性裂缝注入测试(DFIT)。根据这些数据,我们采用了两种方法来约束和澄清应力状态。第一种方法是辛普森系数法,它提供了两个水平主应力的下限,并且只依赖于有限的数据。另外,粘弹性应力松弛法(VSR)可用于估计最小水平主应力,该方法基于观察结果,即随着岩石的粘性行为更加明显,主应力变得更加各向同性。这两种方法的结果支持了Paradox盆地CCU的应力状态几乎是静态和各向同性的假设。其他符合这一假设的因素包括:地层孔隙压力高,通过改变摩擦破坏平衡,降低了可能的应力状态;在应力各向异性的情况下,岩心缺乏诱发裂缝;和互层的岩盐层,由于其高度的延展性,可能导致整个沉积包体的VSR更大。
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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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