APPLICATION OF EULER DECONVOLUTION AND UPWARD CONTINUATION METHODS USING GEOMAGNETIC DATA TO IDENTIFY THE STRUCTURE AND DISTRIBUTION OF MINERALS IN THE OLAT TANAH MERAH AREA, SUMBAWA REGENCY, WEST NUSA TENGGARA
The Olat Tanah Merah area, Teluk Santong Village, Sumbawa Regency has the potential for the distribution of sulfide metal mineral deposits such as copper, gold and silver. To find out the potential distribution of metal minerals, a geophysical study was conducted using geomagnetic methods. This s...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80497 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The Olat Tanah Merah area, Teluk Santong Village, Sumbawa Regency has the
potential for the distribution of sulfide metal mineral deposits such as copper,
gold and silver. To find out the potential distribution of metal minerals, a
geophysical study was conducted using geomagnetic methods. This study uses
total magnetic anomaly data in 2014 obtained from PSDG and other supporting
data such as topographic, geological and geochemical data. In this study, the
reduce to pole (RTP) process was carried out. Furthermore, regional and
residual anomalies were separated using the upward continuation separation
method with a lifting height of 250 m and a Butterworth filter. The Euler
Deconvolution method was also used to determine the location and depth of the
geological structure of the study area. The results obtained show that the RTP
process changes the dipole anomaly response to monopole. Based on the results
of the residual anomaly map, it shows that the distribution of high anomalies is in
the center of the northwest direction and the structural alignment pattern has NESW, NW-SE and almost N-S directions. The results of the Euler Deconvolution
method show the presence of structural alignments and rock intrusions with a
depth of 10-100 m. The distribution of gold, silver and copper elements is
dominant at low magnetic anomaly values and some are at high magnetic
anomaly values caused by the presence of diorite intrusion rocks. Based on the
modeling results, the subsurface geological model consists of old volcanic rocks
with a susceptibility of 0.008-0.102 SI, diorite intrusive rocks at a depth of 20-500
m with a susceptibility of 0.182-0.0257 SI, young volcanic rocks with a
susceptibility of 0.015-0.044 SI and alluvial deposits with a susceptibility of
0.014-0.018 SI. Based on the research results, the upward continuation and Euler
Deconvolution methods can identify the straightness of the structure, represent
the geological conditions and the distribution of mineral elements in the research
area well. The results of the RTP process also facilitate the creation of subsurface
geological modeling. |
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