一套多样化的水力压裂模拟器验证实验

M. AlTammar, M. Sharma
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引用次数: 0

摘要

近年来,数值压裂模拟越来越重视捕捉水力压裂过程中出现的复杂性,以更好地设计和执行水力压裂作业。随着对更复杂的模拟器需求的增长,对更复杂的物理模型的需求也在增加,这些模型可以用于研究受控环境下压裂过程的力学,并验证先进水力压裂模拟器的数值预测。我们开发并利用了新的实验室功能,对水力裂缝扩展的各个方面进行了广泛的压裂实验,包括远场应力对比的影响、岩石力学非均质性、多井注入、井眼缺口、流体注入方法、注入流体类型以及与天然裂缝的相互作用。大量的直接观察和数字图像分析记录下来,为水力压裂提供了基本的见解。通过文献中的一些案例研究表明,我们的实验室实验对于验证水力压裂模拟器非常有用,因为实验中使用的测试样本具有小规模、二维(2-D)的性质、可控的环境和良好的特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Diverse Set of Validation Experiments for Hydraulic Fracturing Simulators
In recent years, numerical fracturing simulation has seen an unprecedented emphasis on capturing the complexities that arise in hydraulic fracturing to better design and execute hydraulic fracturing jobs. As the need for more sophisticated simulators grows, so does the need for more sophisticated physical models that can be used to study the mechanics of the fracturing process under a controlled environment, and to validate the numerical predictions of advanced hydraulic fracturing simulators. We developed and utilized novel laboratory capabilities to perform an extensive set of fracturing experiments across various aspects of hydraulic fracture propagation including the effect of far-field stress contrast, rock mechanical heterogeneity, multi-well injection, borehole notching, fluid injection method, type of injection fluid, and interaction with natural fractures. Numerous direct observations and digital image analyses are documented to provide fundamental insights in hydraulic fracturing. As demonstrated through a few case studies from the literature, our laboratory experiments are very useful for validating hydraulic fracturing simulators due to the small-scale, two-dimensional (2-D) nature, controlled environment, and well-characterized properties of the test specimens used in the experiments.
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