Stress-sensitivity of fracture conductivity of Tuscaloosa Marine Shale cores

油页岩 地质学 断裂(地质) 矿物学 各向异性 电导率 差异应力 材料科学 岩土工程 复合材料 古生物学 化学 量子力学 物理 物理化学 变形(气象学)
作者
Rashid Shaibu,Boyun Guo,Philip Wortman,Jim Lee
出处
期刊:Journal of Petroleum Science and Engineering [Elsevier BV]
卷期号:210: 110042-110042 被引量:17
标识
DOI:10.1016/j.petrol.2021.110042
摘要

Production decline from wells producing from shale rocks is typically quite rapid. One possible factor responsible for such decline is loss in fracture conductivity. This is true in the case of the Tuscaloosa Marine shale reservoir. In this work, the stress-dependent fracture conductivity of TMS core samples is investigated using five propped cores under varying stress conditions. In addition, the effects of static rock mechanical properties and rock mineralogy on conductivity decline are investigated. The mineralogy of each core sample was determined by X-ray Diffraction analysis. Fracture conductivity was measured using a Hassler-type pressure core holder with a pressure rating of 15,000 psi (103.42 MPa). Estimated rock mechanical properties showed that shale anisotropy could affect fracture conductivity. The time decline in conductivity revealed two possible decline trends, a) decline from the reduction in induced fracture width, and b) decline from the healing of developed micro-cracks. An exponential decline in fracture conductivity with increasing confinement pressure was observed with an average decline rate constant of 3.15 × 10 − 10 mPa −1 . While rock mineralogy did not have any clear relationship with conductivity decline, the effects of rock mechanical properties were only important at 10.34 MPa confinement pressure and above. The observation showed that a high Young's modulus correlate to high conductivity, whereas a high Poisson's ratio correlate to low conductivity. This study provides useful observations for optimizing fracture design to enhance well productivity in the TMS. • Fracture conductivity decline followed an exponential trend. • Micro-cracks formed in the rock samples which later contributed to fluid flow. • Reduction in fracture width is controlled by proppant embedment for the TMS. • Fracture width reduction and healing of micro-cracks causes conductivity decline.
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