PROCESSING AND INTERPRETATION OF TRANSIENT ELECTROMAGNETICS (TEM) DATA FOR ESTIMATING THE SHALLOW CONDUCTIVE ZONE IN PATUHA GEOTHERMAL AREA
Geothermal areas tend to have lower resistivity values so that low resistivity anomalies can be the main target of geothermal exploration. One of the geophysical methods to detect this type of anomaly in the form of resistivity variations is the Transient Electromagnetics (TEM) method. This resea...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80448 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Geothermal areas tend to have lower resistivity values so that low resistivity
anomalies can be the main target of geothermal exploration. One of the
geophysical methods to detect this type of anomaly in the form of resistivity
variations is the Transient Electromagnetics (TEM) method. This research was
conducted in the Patuha Geothermal area, using the TEM-FAST 48 tool at 3
locations, namely TTN-01, TTN-05, and TTN-07. This research was conducted to
determine the distribution of resistivity to depth, determine the shallow conductive
zone in the research area, review the TEM-FAST system to determine and interpret
the shallow conductive zone based on variations in resistivity contrast and depth,
and correlate TEM data with drilling data and geoelectric data. TEM data
processing was carried out using TEM-RESEARCHER (TEM-RES). The results
that have been obtained are based on the TEM data resistivity cross-section, the
resistivity value in the study area is in the range of 0.1-200 ?m with the lithology
type dominated by volcanic breccia and andesite, and there is a shallow
conductive zone at a depth of about 20-35 m which is thought to be related to
andesite (TTN-01 and TTN-05) and dacite (TTN-07) which are altered with weak
to moderate intensity. On the other hand, it is suspected that these conductive
zones are also associated with permeable zones in the subsurface. Based on the
variation of resistivity contrast value and depth, the smaller the resistivity contrast
of the third layer, the shallower the third layer is detected. In addition, the deeper
the third layer, the more difficult the third layer will be to detect. The correlation
of TEM and geoelectric data at TTN-01 shows patterns and resistivity values that
generally correspond to each other. Meanwhile, at TTN-05 in general, the
resistivity value in the TEM cross section is relatively lower than geoelectric, but
there is a corresponding pattern. |
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