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Property:ThermalInfo

From Open Energy Information

Property Name ThermalInfo
Property Type Text


Pages using the property "ThermalInfo"

Showing 25 pages using this property.

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2
2-M Probe Survey +Identify and delineate shallow thermal anomalies  +
A
Active Seismic Techniques +High temperatures and pressure impact the compressional and shear wave velocities.  +
Aerial Photography +if photos taken in winter snow cover, can map thermal anomalies  +
Airborne Gravity Survey +Determination of potential heat source of the system related to the low density signature of molten intrusions. (Bruhn, 2010)  +
Audio-Magnetotellurics +Resistivity influenced by temperature  +
B
Borehole Seismic Techniques +High temperatures and pressure impact the compressional and shear wave velocities  +
C
Cation Geothermometers +Used to estimate reservoir temperatures.  +
Chemical Logging +Calcium-alkalinity ratios versus depth assist in defining warm and hot water aquifers  +
Compound and Elemental Analysis +Certain elements exhibit high spatial correlation with high-temperature geothermal systems.  +
Conceptual Model +Temperature and pressure extrapolation throughout reservoir, heat source characteristics  +
Controlled Source Audio MT +Resistivity influenced by temperature  +
Core Analysis +Thermal conductivity can be measured from core samples.  +
Core Holes +Thermal conductivity measurements can be done on retrieved samples.  +
D
DC Resistivity Survey (Dipole-Dipole Array) +Resistivity influenced by temperature  +
DC Resistivity Survey (Mise-A-La-Masse) +Resistivity influenced by temperature  +
DC Resistivity Survey (Pole-Dipole Array) +Resistivity influenced by temperature  +
DC Resistivity Survey (Schlumberger Array) +Resistivity influenced by temperature  +
DC Resistivity Survey (Wenner Array) +Resistivity influenced by temperature  +
Data Collection and Mapping +Identify and delineate shallow thermal anomalies. Map surface temperature.  +
Data and Modeling Techniques +Thermal conduction and convection patterns in the subsurface, temperature and pressure extrapolation throughout reservoir, heat source characteristics  +
Development Drilling +-Temperatures can be measured within the hole -Thermal conductivity measurements can be done on retrieved samples.  +
Downhole Fluid Sampling +Water temperature. Distinguish magmatic/mantle heat inputs. Can be used to estimate reservoir fluid temperatures.  +
Downhole Techniques +Formation temperature with depth  +
Drilling Techniques +-Temperatures can be measured within the hole -Thermal conductivity measurements can be done on retrieved samples.  +
E
Electrical Profiling Configurations +Resistivity influenced by temperature  +