Visualized Hydraulic Fracture Re-Orientation in Directional Hydraulic Fracturing by Laboratory Experiments in Gelatin Samples

• Published in: Applied sciences Vol. 14; no. 5; p. 2047
• Main Authors: Zhang, Hua, Liu, Benben, He, Qingyuan
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.03.2024
• Subjects: Coal industry; Coal mining; Cutting tools; directional hydraulic fracturing; Experiments; hydraulic fracture re-orientation; Hydraulic fracturing; hydraulic fracturing experiments in gelatin; Laboratories; Mineral industry; Mines; Mines and mineral resources; Mining industry; Oil wells; Polyvinyl chloride; Propagation; Shrink wrapping; Stress concentration; three-dimensional irregular hydraulic fracture geometry
• ISSN: 2076-3417; 2076-3417
• DOI: 10.3390/app14052047

Directional hydraulic fracturing (DHF) is popular with hydraulic fracturing operations in coal mining to create cave-hard roofs, in which radial initial notches are created around open borehole walls before injecting high-pressurized fluid. Despite extensive field application of DHF, the three-dimensional irregular hydraulic fracture (HF) geometry in DHF remains unclear, and the HF re-orientation mechanism requires comprehensive understanding. Here, we experimentally examined factors affecting HF re-orientation in DHF in transparent gelatin samples with a self-developed experimental device. We found that it is the ratio between the differential stress and gelatin elastic moduls that determines HF re-orientation rather than the absolute magnitudes of these two factors. Both shear failure and tensile failure occur during HF re-orientation. The HF tends to propagate asymmetrically, and the step-like HF geometry is likely to form in gelatin samples with low elastic moduli and under high differential stresses. HF re-orientation is not necessarily a near-borehole effect, and HFs can propagate along the notch direction for longer distances in stiffer gelatin samples under relatively low or moderate differential stresses. Finally, recommendations are provided for the effective utilization of DHF at coal mine sites.