A Semianalytical Modeling Approach for Hydraulic Fracture Initiation and Orientation from Perforated Wells

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Andreas Michael, I. Gupta
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引用次数: 1

Abstract

Accurate prediction of fracture initiation pressure and orientation is paramount to the design of a hydraulic fracture stimulation treatment and is a major factor in the treatment's eventual success. In this study, closed-form analytical approximations of the fracturing stresses are used to develop orientation criteria for relative-to-the-wellbore (longitudinal or transverse) fracture initiation from perforated wells. These criteria were assessed numerically and found to overestimate the occurrence of transverse fracture initiation, which only takes place under a narrow range of conditions in which the tensile strength of the rock formation is lower than a critical value, and the breakdown pressure falls within a “window.” For a case study performed on the Barnett Shale, transverse fracture initiation is shown to take place for breakdown pressures below 4,762 psi, provided that the formation's tensile strength is below 2,482 psi. A robust 3D finite volume numerical model is used to evaluate solutions for the longitudinal and transverse fracturing stresses for a variable wellbore pressure, hence developing correction factors for the existing closed-form approximations. Geomechanical inputs from the Barnett Shale are considered for a horizontal well aligned parallel to the direction of the least compressive horizontal principal stress. The corrected numerically derived expressions can predict initiation pressures for a specific orientation of fracture initiation. Similarly, at known breakdown pressures, the corrected expressions are used to predict the orientation of fracture initiation. Besides wellbore trajectory, the results depend on the perforation direction. For the Barnett Shale case study, which is under a normal faulting stress regime, the perforations on the side of the borehole yield a wider breakdown pressure window by 71% and higher critical tensile strength by 32.5%, compared to perforations on top of the borehole, implying better promotion of transverse fracture initiation. Leakage of fracturing fluid around the wellbore, between the cemented casing and the surrounding rock, reduces the breakdown pressure window by 11% and the critical tensile strength by 65%. Dimensionless plots are employed to present the range of in-situ stress states in which longitudinal or transverse hydraulic fracture initiation is promoted. This is useful for completion engineers; when targeting low permeability formations such as shale reservoirs, multiple transverse fractures must be induced from the horizontal wells, as opposed to longitudinal fracture initiation, which is desired in higher permeability reservoirs or “frac-and-pack” operations.
射孔井水力裂缝起裂与定向半解析建模方法
裂缝起裂压力和裂缝方位的准确预测对于水力压裂增产措施的设计至关重要,也是压裂措施最终成功的主要因素。在这项研究中,压裂应力的封闭形式解析近似用于制定射孔井相对于井筒(纵向或横向)裂缝起裂的定向标准。对这些标准进行了数值评估,发现高估了横向裂缝起裂的发生率,横向裂缝起裂只发生在岩层抗拉强度低于临界值且破裂压力落在“窗口”内的狭窄条件范围内。在Barnett页岩上进行的一个案例研究表明,只要地层的抗拉强度低于2482 psi,当破裂压力低于4762 psi时,横向裂缝就会发生起裂。一个强大的三维有限体积数值模型用于评估可变井筒压力下纵向和横向压裂应力的解,从而为现有的封闭形式近似开发校正因子。Barnett页岩的地质力学输入被考虑为平行于最小水平主压应力方向的水平井。修正后的数值推导表达式可以预测特定裂缝起裂方向的起裂压力。同样,在已知的破裂压力下,修正后的表达式用于预测破裂起裂的方向。除井筒轨迹外,结果还取决于射孔方向。在Barnett页岩的案例研究中,在正常的断层应力状态下,与井顶射孔相比,井侧射孔的破裂压力窗口宽71%,临界抗拉强度高32.5%,这意味着更好地促进了横向裂缝的起裂。井筒周围、胶结套管与围岩之间的压裂液泄漏,使破裂压力窗口降低11%,临界抗拉强度降低65%。采用无量纲图表示促进纵向或横向水力裂缝起裂的地应力状态范围。这对完井工程师很有用;当瞄准低渗透地层(如页岩储层)时,必须从水平井中诱导多个横向裂缝,而不是纵向裂缝,这在高渗透储层或“压裂-充填”作业中是理想的。
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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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