| Title | Hydraulic Response to Thermal Stimulation Efforts at Raft River Based on Stepped Rate Injection Testing |
|---|---|
| Authors | Mitchell PLUMMER, Carl PALMER, Rob PODGORNEY, Jacob BRADFORD, Joseph MOORE |
| Year | 2014 |
| Conference | Stanford Geothermal Workshop |
| Keywords | enhanced geothermal systems, Raft River, well stimulation, cold water injection |
| Abstract | The injection well stimulation project at the Raft River geothermal field tests the effect of long-term cold water injection and high pressure injection on well injectivity, improvements to which could reduce operating costs. The primary data for analysis and interpretation of the injection test are step-rate flow tests run before each new phase of the injection. These tests were analyzed using a combination of standard pump-test analytical solution methods and methods developed expressly for the observed conditions. The stepped rate injection tests, combined with long-term flow and pressure response data suggest that the well is located within a fractured formation of low transmissivity but high storativity. These calculated parameters appeared to increase with pressure during the first injection test and the higher values were reproduced during the second stepped rate test. Calculated transmissivity and storativity are on the order of 4E-5 m cm2 and 1E-4 m Pa-1, respectively. The apparent pressure dependence of fitted hydraulic parameters may reflect near-well fracture compliance that increased the effective radius of the wellbore during the first test. While the type curve fit analysis also suggests that the reservoir behaves as a uniformly fractured reservoir with a radial flow regime, the hydraulic parameters indicate that condition may exist only a very limited distance ( |