Add to ORKGPhase change of pore fluid (boiling/condensing) in rock cores under conditions representative of geothermal reservoirs results in alterations of the electrical resistivity of the samples. In fractured samples, phase change can result in resistivity changes that are more than an order of magnitude greater than those measured in intact samples. These results suggest that electrical resistivity monitoring may provide a useful tool for monitoring the movement of water and steam within fractured geothermal reservoirs. We measured the electrical resistivity of cores of welded tuff containing fractures of various geometries to investigate the resistivity contrast caused by active boiling and to determine the effects of variable fracture dimensions...
The mechanism of two-phase flow through fractures exerts an important influence on the behavior of g...
We use random resistor network models to explore the relationship between electrical resistivity and...
A new temperature-profile method was recently developed for analyzing perturbed flow conditions in s...
Laboratory measurements of the electrical resistivity of intact and fractured representative geother...
Laboratory measurements of the electrical resistivity of rocks and synthetic rocks with confining pr...
iABSTRACT This report focuses on the coupling between heat conduction and heat convection with boili...
In a laboratory study of cores from borehole SB-15-D in The Geysers geothermal area, we measured the...
Porosity and effective permeability in rocks are entirely or largely provided by fractures. In geol...
Geothermal energy constitutes an important energy resource worldwide. Effective management of such a...
An innovative technique for estimating changes in stresses due to poro-thermo-elastic effects during...
Geothermal energy reservoirs can be used as sources of renewable and sustainable energy. The concept...
AbstractThe growing interest in exploiting supercritical geothermal reservoirs calls for the underst...
Enhanced geothermal systems (EGS) offer the potential for a much larger energy source than conventio...
The focus of this report is the coupling of conductive heat transfer and boiling convective heat tra...
Measurements of the electrical resistivity of metashales from borehole SB-15-D in The Geysers geothe...
The mechanism of two-phase flow through fractures exerts an important influence on the behavior of g...
We use random resistor network models to explore the relationship between electrical resistivity and...
A new temperature-profile method was recently developed for analyzing perturbed flow conditions in s...
Laboratory measurements of the electrical resistivity of intact and fractured representative geother...
Laboratory measurements of the electrical resistivity of rocks and synthetic rocks with confining pr...
iABSTRACT This report focuses on the coupling between heat conduction and heat convection with boili...
In a laboratory study of cores from borehole SB-15-D in The Geysers geothermal area, we measured the...
Porosity and effective permeability in rocks are entirely or largely provided by fractures. In geol...
Geothermal energy constitutes an important energy resource worldwide. Effective management of such a...
An innovative technique for estimating changes in stresses due to poro-thermo-elastic effects during...
Geothermal energy reservoirs can be used as sources of renewable and sustainable energy. The concept...
AbstractThe growing interest in exploiting supercritical geothermal reservoirs calls for the underst...
Enhanced geothermal systems (EGS) offer the potential for a much larger energy source than conventio...
The focus of this report is the coupling of conductive heat transfer and boiling convective heat tra...
Measurements of the electrical resistivity of metashales from borehole SB-15-D in The Geysers geothe...
The mechanism of two-phase flow through fractures exerts an important influence on the behavior of g...
We use random resistor network models to explore the relationship between electrical resistivity and...
A new temperature-profile method was recently developed for analyzing perturbed flow conditions in s...