Evolution of normal deformability of acidized rock fractures
Fracture conductivity, created by acid fracturing, is a key parameter in the process of acid fracturing stimulation. As normal stress increases, fracture closure increases, and, as a result, the conductivity decreases with increasing fracture contact. Mechanical behavior under normal stress depends...
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Veröffentlicht in: | Arabian journal of geosciences 2018-11, Vol.11 (21), p.1-16, Article 652 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Fracture conductivity, created by acid fracturing, is a key parameter in the process of acid fracturing stimulation. As normal stress increases, fracture closure increases, and, as a result, the conductivity decreases with increasing fracture contact. Mechanical behavior under normal stress depends on the distribution, geometry, and mechanical properties of roughness. These properties change because of acid injection in the fracture in the acid fracturing technique. Therefore, the study of the fracture closure mechanism after acid fracturing is crucial. In this study, an acidizing cell has been developed to simulate the process of fracture surface etching in acid fracturing and study closure of acidizing fractures under normal stresses. The results showed that the amount of maximum normal deformation increased as a result of acidizing. Samples exhibit non-linear behavior in experiments, and the nonlinear behavior and permanent deformation increased by acid injection and, in unloading, all samples exhibit hysteresis behavior. The calculated fracture normal stiffness of specimens without acid injection are greater than the acidized samples with 10 and 20 min up to 300 and 600%, respectively. Reductions in the fracture normal stiffness due to acidizing can be caused by increasing the initial aperture and reducing the rock strength properties. At a high applied normal stress, fractures without acid injection show a relatively high normal stiffness and low hydraulic conductivity. When a low normal stress is applied, the rate of fracture stiffness-conductivity follow the same trend in both acidizing times while following a steep trend in long time acidized cases at high stress levels. |
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ISSN: | 1866-7511 1866-7538 |
DOI: | 10.1007/s12517-018-3981-9 |