Analisis Sistem Panas Bumi Berdasarkan Pemodelan Inversi 2D Data Magnetotelurik Daerah Panas Bumi “Alpha”

Bangun, Angga Pensada (2020) Analisis Sistem Panas Bumi Berdasarkan Pemodelan Inversi 2D Data Magnetotelurik Daerah Panas Bumi “Alpha”. Other thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Sistem panas bumi mempunyai beberapa komponen utama, yaitu lapisan penudung, reservoar, dan sumber panas (heat source). Pada bidang geofisika, metode yang paling efisien untuk eskplorasi panas bumi adalah metode magnetotelurik karena memiliki penetrasi yang sangat dalam. Pada penelitian ini, metode yang digunakan adalah metode magnetotelurik dengan jumlah data sebanyak 25 titik MT di lapangan panas bumi “Alpha”. Penelitian ini dilakukan dengan tujuan untuk memetakan distribusi resitivitas dan menganalisis sistem panas bumi lapangan “Alpha” berdasarkan hasil pemodelan 2D data magnetotelurik yang diintegrasi dengan data geologi regional. Data MT sudah berekstensi .EDI yang kemudian akan diolah menggunakan software WinGlink yang nantinya akan dihasilkan penampang model lapisan bawah permukaaan 2D. Metode inversi yang digunakan adalah Non Linear Conjugate Gradient (NLCG) yang terdapat pada software WinGlink. Langkah pemrosesan magnetotelurik terdiri dari smoothing data, masking data, koreksi efek statis, inversi 1D Occam dan Bostick, Mesh Parameter, inversi 2D serta interpretasi model inversi. Didapat nilai resistivitas sebesar 1-14 Ωm yang diindikasikan sebagai caprock, nilai resistivitas sebesar 24–170 Ωm yang diindikasikan sebagai resrvoar , nilai resistivitas sebesar 170–2000 Ωm yang diindikasikan sebagai heatsource.
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The geothermal system has main several components, there are heat source, reservoir and cap rock. For geophysics method, the most efficient method for geothermal exploration is the magnetoteluric method because it has a very deep penetration. In this research, the method that is used is the magnetoteluric method with the number of data are 25 MT points on the "Alpha" geothermal field. This research was conducted with the aim of mapping the distribution of resistivity and analyzing the geothermal field system "Alpha" based on the results of 2D modeling of magnetoteluric data integrated with regional geological data. MT data has an .EDI extension which will be processed using WinGlink software which will be produced a section of the 2D subsurface layer model. The inversion method using Non Linear Conjugate Gradient (NLCG) contained in WinGlink software. Magnetotelluric processing steps consist of Smoothing Data, Masking Data, Static Shift Correction, 1D Occam and Bostick inversion, Mesh Parameters, 2D inversion and interpretation of inversion models. Modelling results show that the resistivity value of 1-14 Ωm are indicated as a caprock, the resistivity values of 24–170 Ωm are indicated as a reservoar, the resistivity values of 170–2000 Ωm are indicated as heatsource.

Item Type: Thesis (Other)
Uncontrolled Keywords: Magnetotelurik, NLCG, Resistivitas, Inversi 2D Magnetotelluric, NLCG, Resistivity, 2D Inversion
Subjects: Q Science > QC Physics > QC610.3 Electric conductivity
Q Science > QE Geology > QE601 Geology, Structural
T Technology > TN Mining engineering. Metallurgy > TN269 Prospecting--Geophysical methods
Divisions: Faculty of Civil Engineering and Planning > Geophysics Engineering > 33201-(S1) Undergraduate Thesis
Depositing User: Angga Pensada Bangun
Date Deposited: 25 Aug 2020 03:40
Last Modified: 11 Jun 2023 13:11
URI: http://repository.its.ac.id/id/eprint/79452

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