Use of Slim Holes for Geothermal Reservoir Assessment: An Update
Production and injection data from slim holes and large-diameter wells in three (3) geothermal fields (Oguni, Sumikawa, Steamboat Hills) were examined to determine the effect of borehole diameter (1) on the discharge rate and (2) on the productivity/injectivity indices. For boreholes with liquid feedzones, maximum discharge rates scale with diameter according to a relationship previously derived by Pritchett. The latter scaling rule does not apply to discharge data for boreholes with two-phase feedzones. Data from Oguni and Sumikawa geothermal fields indicate that the productivity (for boreholes with liquid feeds) and injectivity indices are more or less equal. The injectivity indices for Sumikawa boreholes are essentially independent of borehole diameter. The latter result is at variance with Oguni data; both the productivity and injectivity indices for Oguni boreholes display a strong variation with borehole diameter. Based on the discharge and injection data from these three geothermal fields, the flow rate of large-diameter production wells with liquid feedzones can be predicted using data from slim holes.
- Research Organization:
- S-Cube, La Jolla, California; Geo Hills Associates, Los Altos Hills, California; Consultant, Richmond, California
- Sponsoring Organization:
- USDOE
- OSTI ID:
- 895945
- Report Number(s):
- GEO-PROC-95-02; TRN: US200703%%760
- Country of Publication:
- United States
- Language:
- English
Similar Records
Production/injection characteristics of slim hole and large-diameter wells at the Sumikawa Geothermal Field, JP
A Study of Production/Injection Data from Slim Holes and Large-Diameter Wells at the Okuaizu Geothermal Field, Tohoku, Japan