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Fracture Propagation and Morphology Due to Non-Aqueous Fracturing: Competing Roles between Fluid Characteristics and In Situ Stress State
| Content Provider | MDPI |
|---|---|
| Author | Jia, Yunzhong Lu, Zhaohui Liu, Hong Wang, Jiehao Cheng, Yugang Zhang, Xinwei |
| Copyright Year | 2020 |
| Description | Non-aqueous or gaseous stimulants are alternative working fluids to water for hydraulic fracturing in shale reservoirs, which offer advantages including conserving water, avoiding clay swelling and decreasing formation damage. Hence, it is crucial to understand fluid-driven fracture propagation and morphology in shale formations. In this research, we conduct fracturing experiments on shale samples with water, liquid carbon dioxide, and supercritical carbon dioxide to explore the effect of fluid characteristics and in situ stress on fracture propagation and morphology. Moreover, a numerical model that couples rock property heterogeneity, micro-scale damage and fluid flow was built to compare with experimental observations. Our results indicate that the competing roles between fluid viscosity and in situ stress determine fluid-driven fracture propagation and morphology during the fracturing process. From the macroscopic aspect, fluid-driven fractures propagate to the direction of maximum horizontal stress direction. From the microscopic aspect, low viscosity fluid easily penetrates into pore throats and creates branches and secondary fractures, which may deflect the main fracture and eventually form the fracture networks. Our results provide a new understanding of fluid-driven fracture propagation, which is beneficial to fracturing fluid selection and fracturing strategy optimization for shale gas hydraulic fracturing operations. |
| Starting Page | 428 |
| e-ISSN | 2075163X |
| DOI | 10.3390/min10050428 |
| Journal | Minerals |
| Issue Number | 5 |
| Volume Number | 10 |
| Language | English |
| Publisher | MDPI |
| Publisher Date | 2020-05-10 |
| Access Restriction | Open |
| Subject Keyword | Minerals Petroleum Engineering Shale Fracture Propagation Morphology Fluid Characteristics in Situ Stress |
| Content Type | Text |
| Resource Type | Article |
