| Kode Mata Kuliah | GL4047 / 2 SKS |
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| Penyelenggara | 120 - Teknik Geologi / FITB |
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| Kategori | Kuliah |
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| Bahasa Indonesia | English |
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| Nama Mata Kuliah | Geologi Sekuestrasi Karbon | Geology of Carbon Sequestration |
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| Bahan Kajian | - Pendahuluan Sekuestrasi CO2:
Penjelasan singkat peraturan perkuliahan, cakupan materi
perkuliahan, dan pustaka referensi yang digunakan, Pengenalan
tentang sekuestrasi karbon, CCS, dan CCUS
Jenis penyimpanan geologi untuk sekuestrasi karbon: - Depleted oil & gas reservoir - Deep saline aquifer/reservoir - CCUS untuk Enhanced Oil/Gas Recovery (EOR dan EGR) - Mineralisasi CO2 pada basalt - Deep unmineable coal seam - CO2 for enhanced CBM recovery - Carbon pool in peatland
- Penilaian kecocokan lokasi cekungan secara regional (Basin
Suitability & Regional Site Assessment): - Sumber CO2 dan jarak ke reservoir sebagai CO2 sink - Kedalaman reservoir secara regional - Tebal & kapasitas batuan penyekat regional (regional
containment) - Kedalaman dan kondisi aquifer regional
Injektivitas reservoir: - Kualitas reservoir - Konektivitas dan geometri reservoir
- Kapasitas simpan reservoir: - Volume pori penyimpanan - Kompartementalisasi reservoir - Kapasitas simpan pada depleted oil & gas reservoir dan
deep saline aquifer/reservoir
Studi Kasus 1:
Karakterisasi Reservoir untuk sekuestrasi CO2
Proyek Mahasiswa 1:
Project-based learning oleh mahasiswa untuk karakterisasi
reservoir pada kasus sekuestrasi CO2
- Analisis hidrodinamika dan geokimia untuk sekuestrasi CO2: - Arah dan besar air formasi pada zona akuifer - Salinitas air formasi dan storage efficiency - Interaksi CO2 – air (brine) - batuan
Analisis containment: - Kemenerusan lapisan batuan penyekat - Kapasitas dan integritas batuan penyekat
- Mekanisme pemerangkapan CO2
Analisis geomekanika untuk sekuestrasi CO2: - Analisis sekatan sesar - Analisis stabilitas sesar dan maximum pressure
- Studi Kasus 2:
Analisis containment dan geomekanika untuk sekuestrasi CO2
Proyek Mahasiswa 2:
Project-based learning oleh mahasiswa untuk containment dan
geomekanika pada kasus sekuestrasi CO2
| - Introduction to CO Sequestration2 :
Brief explanation of lecture rules, scope of lecture material, and reference library used, Introduction to carbon sequestration, CCS, and CCUS
Geological storage types for carbon sequestration:
- Depleted oil & gas reservoir
- Deep saline aquifer/reservoir
- CCUS for Enhanced Oil/Gas Recovery (EOR and EGR)
- CO mineralization2 in basalt
- Deep unmineable coal seam
- CO2 for enhanced CBM recovery
- Carbon pool in peatland
- Basin Suitability & Regional Site Assessment:
- Source of CO2 and distance to reservoir as CO2 sink
- Regional reservoir depth
- Thickness & capacity of regional containment rock
- Depth and condition of regional aquifers
Reservoir injectivity:
- Reservoir quality
- Reservoir connectivity and geometry
- Reservoir storage capacity:
- Storage pore volume
- Reservoir compartmentalization
- Storage capacity in depleted oil & gas reservoirs and
deep saline aquifer/reservoir
Case Study 1:
Reservoir Characterization for CO sequestration2
Student Project 1:
Project-based learning by students for reservoir characterization in the case of CO2 sequestration
- Hydrodynamic and geochemical analysis for CO sequestration2 :
- Direction and size of formation water in the aquifer zone
- Formation water salinity and storage efficiency
- CO interaction2 - water (brine) - rock
Containment analysis:
- Sealing rock layer smoothness
- Capacity and integrity of the sealing rock
- CO capture mechanism2
Geomechanical analysis for CO sequestration2 :
- Fault sequence analysis
- Fault stability and maximum pressure analysis
- Case Study 2:
Containment analysis and geomechanics for CO sequestration2
Student Project 2:
Project-based learning by students for containment and geomechanics in the case of CO2 sequestration
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mahasiswa memiliki pengetahuan yang cukup tentang sekuestrasi karbon (CO2)
secara geologi
- Mahasiswa mampu memahami prinsip sekuestrasi karbon (CO2) secara geologi
- Mahasiswa mampu memahami dan melakukan analisis karakterisasi reservoir untuk
sekuestrasi karbon (CO2)
- Mahasiswa mampu memahami dan melakukan analisis containment dan
geomekanika untuk sekuestrasi karbon (CO2)
- Mahasiswa mampu melakukan pemilihan calon lokasi (site selection) injeksi CO2
| - Students have sufficient knowledge about geological carbon (CO2 ) sequestration
- Students are able to understand the principle of carbon (CO2 ) sequestration in geology
- Students are able to understand and analyze reservoir characterization for carbon sequestration (CO )2
- Students are able to understand and analyze containment and geomechanics for carbon sequestration (CO )2
- Students are able to perform site selection for CO injection2
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| Metode Pembelajaran | KBL : Knowledge Based Learning
PBL : Problem Based Learning
CBL : Case-Based Learning
PjBL : Project-Based Learning | KBL : Knowledge Based Learning
PBL : Problem Based Learning
CBL : Case-Based Learning
PjBL : Project-Based Learning |
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| Modalitas Pembelajaran | Luring, Daring, Singkron, Asingkron | Offline, Online, Synchronous, Asynchronous |
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| Jenis Nilai | ABCDE |
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| Metode Penilaian | Tertulis : Uraian, Esai
Tugas : Laporan | Written : Description, Essay
Tasks : Report |
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| Catatan Tambahan | | |
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