| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1742236 | Geothermics | 2015 | 9 Pages |
•We examine effects of cold-water injection in a geothermal reservoir.•Mass and heat transfer model for a fractured reservoir are developed.•Fracture density in damage zones decreases with distance from fault cores.•The effect of fault-related structures on the tracer response and the thermal response is investigated.
This study provides a method to evaluate the effects of cold-water injection into an advection-dominated geothermal reservoir. A fractional advection-dispersion equation (fADE) and a fractional heat transfer equation (fHTE) are applied to fault-related structures in geothermal areas where the fracture density is described by a power-law model. Synthetic production data generated by a numerical reservoir simulator reveal that the fADE and the fHTE are in reasonable agreement with the tracer responses and temperature change in a fault zone. Tracer analysis based on the fADE has potential to elucidate fault-related structures and to predict premature thermal breakthroughs quickly and efficiently.
