| Kode Mata Kuliah | FI5162 / 3 SKS |
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| Penyelenggara | 202 - Physics / FMIPA |
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| Kategori | Lecture |
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| Bahasa Indonesia | English |
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| Nama Mata Kuliah | Fisika Batuan dan Karakterisasi Reservoir | Rock Physics and Reservoir Characterization |
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| Bahan Kajian | - Jenis Batuan
- Mikrogeometri batuan
- Besaran intsrinsik: porositas, luas permukaaan spesifik, dll
- Sifat elastik batuan
- Sifat kelistrikan batuan
- Sifat termal batuan
- Aliran fluida dalam batuan
- AVO, inversi AI dan AVO seismik
- Persamaan Gassmann dan Biot
- Studi kasus: karakterisasi batuan menggunakan data petrofisik, rock physics dan data inversi seismik
- Archie’s Equation, Resistivity Index (RI), Dual Water Model, Waxman-Smits Equation, dan pengenalan petrofisik Well logging
- Studi kasus: karakterisasi batuan menggunakan metoda elektrik pada petrofisik dan citra resistivitas
| - Rock Type
- Rock microgeometry
- Intrinsic quantities: porosity, specific surface area, etc
- Elastic properties of rocks
- Electrical properties of rocks
- Thermal properties of rocks
- Fluid flow in rocks
- AVO, AI inversion and seismic AVO
- Gassmann and Biot equations
- Case study: rock characterization using petrophysical data, rock physics and seismic inversion data
- Archie's Equation, Resistivity Index (RI), Dual Water Model, Waxman-Smits Equation, and introduction to petrophysical Well logging
- Case study: rock characterization using electrical methods on petrophysical and resistivity images
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mahasiswa mampu memahami konseptual medan listrik dan medan gelombang untuk pencitraaan bawah permukaan
- Mahasiswa memahami struktur mikrogeometri batuan
- Mahasiswa memahami besaran mikrogeometeri batuan
- Mahasiswa mampu memahami sifat elsatik batuan, sifat kelistrikan dan aliran fluida dalam batuan.
- Mahasiswa mampu menerapkan pemahaman tentang sifat elastik batuan, sifat kelistrikan dan aliran fluida dalam batuan untuk keperluan bidang terkait.
- Mahasiswa mampu menyelesaikan studi kasus karakterisasi batuan menggunakan metoda seismik dan kelsitrikan dalam industri dan kaitannya dengan bidang lain.
- Mahasiswa mampu memahami perkembangan keilmuan dalam bidang fisika batuan beserta terapannya dalam berbagai bidang.
- Mahasiswa mampu membuat kode komputasi untuk penghitungan besaran fisika batuan.
| - Students are able to understand the concept of electric fields and wave fields for subsurface imaging
- Students understand the microgeometric structure of rocks
- Students understand the microgeometric magnitude of rocks
- Students are able to understand the elastic properties of rocks, electrical properties and fluid flow in rocks.
- Students are able to apply their understanding of the elastic properties of rocks, electrical properties and fluid flow in rocks for the purposes of related fields.
- Students are able to complete case studies on rock characterization using seismic and electrical methods in industry and its relation to other fields.
- Students are able to understand scientific developments in the field of rock physics and their applications in various fields.
- Students are able to create computational codes for calculating rock physical quantities.
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| Metode Pembelajaran | Ceramah, diskusi kelompok, kuliah lapangan | Lectures, group discussions, field lectures |
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| Modalitas Pembelajaran | Luring Sinkron, Bauran/Daring Asinkron, Dosen Tamu Industri | Synchronous Offline, Asynchronous Mixed/Online, Industrial Guest Lecturer |
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| Jenis Nilai | ABCDE |
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| Metode Penilaian | UTS, UAS, Tugas dan Kuis | UTS, UAS, Assignments and Quizzes |
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| Catatan Tambahan | MKPB | MKPB |
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