Abstract: Refracturing treatment is often performed on Russian carbonate reservoirs because of the quick production decline of reservoirs. The traditional refracturing model assumes that a refracture initiates in the normal direction relative to the initial hydro-fracture. This assumption is inconsistent with oilfield measurements of refracture propagation trajectories. Indeed, the existing model is not based on an in-depth understanding of initiation and propagation mechanisms of the second hydraulic fractures during refracturing. In this study, we use the extended finite element method to investigate refracture propagation paths at different initiation angles. Both the enriched function approach and phantom mode technique are incorporated into the refracturing model, thereby ensuring that the refracture can freely extend on the structured mesh without any refinement near the crack tips. Key factors including production time, stress anisotropy and initiation angle, and the propped mechanical effect are analyzed in detail. This study provides new insight into the mechanism of refracture propagation in unconventional reservoirs.