The effects of capillarity on electrical resistivity during boiling in metashale from scientific corehole SB-15-D, The Geysers, California, USA

Metashale cores from The Geysers Coring Project were tested under laboratory-simulated geothermal-reservoir conditions; their electrical resistivity — with and without pore-pressure control, with confining pressures up to 100 bar, and between 20 and 150°C — strongly suggests that boiling occurs grad...

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Bibliographic Details
Published in:Geothermics 2001-04, Vol.30 (2), p.235-254
Main Authors: Roberts, Jeffrey J., Duba, Alfred G., Bonner, Brian P., Kasameyer, Paul W.
Format: Article
Language:English
Subjects:
Capillarity
Electrical resistivity
Microstructure
Pore pressure
The Geysers
USA
Vapor pressure
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Summary:Metashale cores from The Geysers Coring Project were tested under laboratory-simulated geothermal-reservoir conditions; their electrical resistivity — with and without pore-pressure control, with confining pressures up to 100 bar, and between 20 and 150°C — strongly suggests that boiling occurs gradually, rather than suddenly, as pore pressure is reduced. Gradual boiling is modeled as an effect of capillarity in the fine pores (submicron diameter) of the cores. Model results suggest that boiling in vapor-dominated systems is controlled by temperature and pressure and by pore-size distribution. These experimental results suggest that changes in reservoir conditions can be monitored by surface or borehole electrical-resistivity surveys.
ISSN:0375-6505
1879-3576
DOI:10.1016/S0375-6505(00)00052-3