INTERPRETATION OF GRAVITY METHOD IN IDENTIFYING GEOTHERMAL POTENTIAL IN LIMBONG, LUWU UTARA DISTRICT, SOUTH SULAWESI
The development of geothermal energy in Indonesia can help meet the needs of the Indonesian people for energy that continues to increase and replace fossil energy which will run out someday. Therefore, it is necessary to conduct geophysical exploration to meet geothermal activity and subsurface g...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/55361 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The development of geothermal energy in Indonesia can help meet the needs of the
Indonesian people for energy that continues to increase and replace fossil energy
which will run out someday. Therefore, it is necessary to conduct geophysical
exploration to meet geothermal activity and subsurface geological conditions
where the gravity method is an effective method used in geothermal exploration.
The area that is the object of research is the Limbong area, North Luwu Regency,
South Sulawesi. The research aims to determine the model of the geothermal system
that develops in the Limbong geothermal field. Based on gravity and topographical
observation data from the Center for Coal and Geothermal Mineral Resources
(PSDMBP) in 2010, this study uses these data to determine the value of the
Complete Bouguer Anomaly (CBA) in the Limbong geothermal field. The results
obtained from CBA data processing are in the form of a complete Bouguer anomaly
map with an anomaly value range of -81 to -65 mGal using the density obtained
from the average rock density, which is 2.62 gr / cm3. After that, the data was
processed using two methods, namely themethod moving average and the second
order polynomial. The results of the anomaly values of the two methods are
compared and the one that is the most optimal for further data processing is
selected. The Bouguer anomaly map shows the presence of low anomalies in the
middle of the study area and high value anomalies in the eastern and western parts
of the study area. The residual anomaly results in the second order polynomial
method which shows high anomaly values in the northwest and south of the study
area are estimated to be due to the presence of volcanic rock units that are still
fresh and massive, so this method is considered superior to themethod moving
average. There are 3 components of the Limbong geothermal system. First, diorite
intrusion which is thought to be a source of heat, second inseparable volcanic rock
is thought to be a reservoir, and the layer which is thought to be caprock is a rock
layer of andesitic lava flow and pyroclastic lava flow-1 |
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