ESTIMASI KEDALAMAN TITIK CURIE PADA DATA AEROMAGNETIK MENGGUNAKAN METODE ANALISIS SPEKTRAL DUA DIMENSI UNTUK MENGETAHUI STRUKTUR TERMAL REGIONAL (STUDI KASUS: AREA CASCADE RANGE, OREGON, AMERIKA SERIKAT)
Curie point depth can be used for regional thermal structure investigation. This condition can be represented by the magnetic properties of magnetic minerals in the rock. In this study, a program to estimate the Curie point depth was developed using the two-dimensional (2D) spectral analysis meth...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/55566 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Curie point depth can be used for regional thermal structure investigation. This
condition can be represented by the magnetic properties of magnetic minerals in
the rock. In this study, a program to estimate the Curie point depth was developed
using the two-dimensional (2D) spectral analysis method based on aeromagnetic
data. Synthetic model testing was carried out as the initial stage to determine the
effect of the calculation block in a research area on the Curie point depth estimation
results. Based on the results of the program testing, the error percentage of the
synthetic models with calculation blocks of 63.5 × 63.5 km2 with 50% overlap was
found to be less than 1% so, program is considered to be successfull in determining
the Curie point depth. The program was then applied to the aeromagnetic data in
the Cascade Range Area, Oregon, United States. This area was chosen because it
was considered to be able to show the corelation between volcanic activity and the
Curie point depth. The 300 × 350 km2 area is divided into 143 blocks, with the area
of 50 × 50 km2 and 50% overlap between blocks. The Curie point depth is obtained
with the range of 2-12 km. The existence of volcanoes and hydrothermal systems is
represented by the shallow Curie point depth, while outside this area the Curie
point depth is deeper. The values of geothermal gradient and heat flow is later
calculated from the Curie point depth and are at their highest in areas where
volcanoes and hydrothermal systems are found and lower values are found in areas
where there is no evidence of volcanoes or hydrothermal systems. The calculated
values are respectively 34.73 °C/km - 157.50 °C/km for geothermal gradient and
55.57 mW/m2 - 245.71 mW/m2 for heat flow. |
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