Ditemukan 4 dokumen yang sesuai dengan query
Amallia Nadhiaratna
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ABSTRAKLapangan geotermal Sibayak berada di Sumatera Utara dengan ketinggian antara 1400 sampai 2200 m dengan keberadaan tiga vulkano aktif. Potensi dari lapangan geotermal Sibayak mencapai 40 MWe, namun saat ini kapasitas yang dieksplorasi baru mencapai 12 MWe. Area pemboran yang produktif berasosiasi dengan zona reservoir memiliki ciri yaitu area dengan temperatur dan permeabilitas tinggi. Daerah dengan permeabilitas tinggi ini biasanya disebabkan oleh banyaknya rekahan-rekahan. Pengukuran resistivitas dengan metode mise-a-la-masse merupakan cara yang dapat digunakan untuk mengetahui zona rekahan dengan permeabilitas tinggi. Data pendukung juga diperlukan seperti data geologi, geokimia, dan data sumur. Pembuatan model menggunakan metode inversi smoothness constrained least squares. Nilai resistivitas rendah menunjukkan adanya rekahan-rekahan bawah permukaan. Hasil yang diperoleh menunjukkan tiga zona permeabel yaitu high permeability di bagian utara sumur SBY-4 atau sekitar Gunung Sibayak, moderate permeability dekat sumur SBY-3 dan SBY-4, dan low permeability di bagian selatan dekat kaldera. Rekomendasi potensi lokasi sumur pemboran produksi berada di daerah upflow yang bertemperatur tinggi dan permeabilitas tinggi, yaitu di sebelah utara sumur SBY-4.
ABSTRACTSibayak geothermal field located in Sumatera Utara with elevation around 1400 until 2200m and surround by three active volcanoes. The potential of the Sibayak geothermal field reaches 40 MWe, but currently the explored capacity has only reached 12 MWe. Productive drilling areas associated with reservoir zones are characterized by areas with high temperature and permeability. This area with high permeability is usually caused by many fractures. Resistivity measurement using the mise-a-la-masse method is a method that can be used to determine the zone of fracture with high permeability. Supporting data is also needed such as geological, geochemical and well data. Modeling uses the smoothness constrained least squares inversion method. Low resistivity values indicate the existence of subsurface fractures. The results obtained showed three permeable zones which is high permeability in the northern part of the SBY-4 well or around Mount Sibayak, moderate permeability near the SBY-3 and SBY-4 wells, and low permeability in the southern part near the caldera. The recommendation for the potential location of the production drilling well is in the high temperature and high permeability upflow area, which is to the north of the SBY-4 well."
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2019
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Aiyudina Mutiaranisa
"Daerah penelitian AM merupakan salah satu daerah prospek geotermal yang berlokasi di Kabupaten OKU Selatan, Provinsi Sumatera Selatan. Potensi geotermal pada daerah penelitian ditandai dengan kemunculan manifestasi berupa lima mata air panas bersuhu 44,4o – 92,5oC dan pH antara 8,19 – 9,43. Penelitian ini bertujuan untuk mengidentifikasi struktur geologi bawah permukaan melalui gravitasi satelit GGMplus serta data pendukung geologi dan geokimia. Struktur pada peta geologi didominasi oleh sesar regional berarah barat laut-tenggara. Hasil analisis slicing lintasan First Horizontal Derivative (FHD) dan Second Vertical Derivative (SVD) menunjukkan adanya enam patahan pada area penelitian dan dikonfirmasi dengan data geologi. Perkiraan temperatur reservoir daerah penelitian AM berdasarkan geotermometer geokimia Na-K berkisar antara 146o - 176oC.
The research area AM is one of the geothermal prospect area located in South OKU Districts, South Sumatera. The existence of the geothermal system in the research area is indicated by the presence of five hot springs with a temperature of 44.4 – 92.5°C and a pH between 8.19 – 9.43. This study aims to be able to identify the subsurface geological structures through GGMplus satellite gravity, as well as geological and geochemical supporting data. The structures on the geological map are dominated by northwest – southeast regional fault. The results of the First Horizontal Derivative (FHD) and Second Vertical Derivative (SVD) slicing analysis indicate six faults in the research area and confirmed with geological data. The reservoir temperature in the research area AM is estimated around 146o – 176°C based on Na-K geothermometer."
Depok: Fakultas Matematika Dan Ilmu Pengetahuan Alam Universitas Indonesia, 2023
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Miftha Apriliani
"Pada lapangan panas bumi “X” Daerah Gunung Slamet, Kabupaten Tegal Jawa Tengah keterdapatan manifestasi berupa mata air panas yang kemunculan dan persebarannya mengikuti kelurusan struktur geologi berupa sesar normal dan sesar mendatar berorientasi baratlaut-tenggara. Sehingga dari kondisi geologi daerah penelitian yang menunjukkan adanya struktur yang dapat menjadi jalur fluida panas tersebut, batuan teralterasi beserta mineral ubahan sangat mungkin terbentuk didaerah ini. Penelitian ini dilakukan bertujuan untuk mengidentifikasi litologi, zona alterasi berdasarkan mineral alterasi yang terbentuk dan kaitan mineral alterasi dengan temperatur dan sifat fluida pembentukan mineral alterasi tersebut di daerah penelitian. Metode yang digunakan ialah analisis petrografi melalui sayatan tipis dan metode analisis difraksi sinar-X (X-ray Diffraction). Metode petrografi dilakukan guna mengidentifikasi keberadaan mineral teralterasi atau tidak teralterasi pada sampel sayatan tipis. Lalu, Metode XRD bertujuan untuk mengidentifikasi lebih lanjut mengenai mineral alterasi yang terkandung yang sebelumnya tidak dapat teridentifikasi pada analisis petrografi. Berdasarkan hasil analisis petrografi batuan, litologi daerah penelitian tersusun atas batuan beku andesit, dan kristal tuf. Berdasarkan hasil analisa petrografi dan XRD pada sampel daerah penelitian dapat dibagi menjadi dua zona alterasi berdasarkan mineral alterasi yang ditemui, yaitu zona propilitik dan zona argilik. Pada zona argilik rentang temperatur keterbentukan mineral yaitu pada suhu 80-120°C. Sedangkan, zona alterasi propilitik memiliki rentang suhu keterbentukan mineral pada >250°C. Berdasarkan mineral alterasi yang ditemukan temperatur daerah penelitian terbagi menjadi dua kelompok yaitu kelompok tingkat keasaman (pH) netral dan asam yang dicirikan dengan keberadaan mineral kaolinit.
In the geothermal field "X" Slamet Mountain area, Tegal Regency, Central Java, there are manifestations in the form of hot springs whose appearance and distribution follow the alignment of geological structures in the form of normal faults and stike-slip faults oriented north west-south east. So that from the geological conditions of the research area that shows the existence of structures that can be a hot fluid path, alterated rocks and altered minerals are very likely to form in this area. This study was conducted to identify the lithology, alteration zones based on alteration minerals formed and the relationship of alteration minerals with temperature and fluid properties of the formation of alteration minerals in the study area. The methods used are petrographic analysis through thin section and X-ray diffraction analysis method. The petrographic method was used to identify the presence of altered or unaltered minerals in the thin section samples. Then, the XRD method aims to further identify the alteration minerals contained that could not previously be identified in the petrographic analysis. Based on the results of rock petrographic analysis, the lithology of the study area is composed of andesite igneous rocks, and tuff crystals. Based on the results of petrographic and XRD analysis on the samples of the study area can be divided into two alteration zones based on the alteration minerals found, namely the propylitic zone, and argillic. In the argillic zone, the temperature range for mineral formation is 80-120°C. Meanwhile, the propylitic alteration zone has a mineral formation temperature range of >250°C. Based on the alteration minerals found, the temperature of the research area is divided into two groups, namely neutral and acidic acidity (pH) groups which are characterized by the presence of the mineral kaolinite."
Depok: Fakultas Matematika Dan Ilmu Pengetahuan Alam Universitas Indonesia, 2024
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Wahyudi W. Parnadi
"The Geological Research Center’s (GRC) or Pusat Sumber Daya Geologi (PSDG) previous research estimated that the Way Umpu 1 Hot Springs in the Way Umpu geothermal prospect area reflects a reservoir temperature of 160°C–195°C. From geological observations, the main fault structure in that area is the Way Umpu Fault, which has a strike direction of NE–SW and the area is dominated by volcanic rocks. Many joints are also found along the fault line. The Way Umpu-1 Hot Springs is controlled by these geologic structures. The previous research and field observations lead us to carry out continuing research in this area, which is aimed at determining its resistivity structure to a depth of 4 km. For this purpose, we carried out field measurements using Audio magnetotelluric (AMT) and Magnetotelluric (MT) methods. The work presented in this paper is the result of 1-D and 2-D inversion modeling from 8 MT soundings. We compared inversion models using the 1-D Bostick transformation scheme, 1-D Occam model, and 2-D Nonlinear Conjugate Gradient (NLCG) algorithms. The study results reveal the existence of a strike as indicated from the geological data and a low resistivity zone at a shallow surface to a depth of 2 km that is most probably associated with partial melting and intrusion at a greater depth."
Depok: Faculty of Engineering, Universitas Indonesia, 2014
UI-IJTECH 5:3 (2014)
Artikel Jurnal Universitas Indonesia Library
