Kode Mata KuliahGL4047 / 2 SKS
Penyelenggara120 - Geological Engineering / FITB
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahGeologi Sekuestrasi KarbonGeology of Carbon Sequestration
Bahan Kajian
  1. 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
  2. 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
  3. 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
  4. 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
  5. 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
  1. 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
  2. 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
  3. 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
  4. 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
  5. 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
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa memiliki pengetahuan yang cukup tentang sekuestrasi karbon (CO2) secara geologi
  2. Mahasiswa mampu memahami prinsip sekuestrasi karbon (CO2) secara geologi
  3. Mahasiswa mampu memahami dan melakukan analisis karakterisasi reservoir untuk sekuestrasi karbon (CO2)
  4. Mahasiswa mampu memahami dan melakukan analisis containment dan geomekanika untuk sekuestrasi karbon (CO2)
  5. Mahasiswa mampu melakukan pemilihan calon lokasi (site selection) injeksi CO2
  1. Students have sufficient knowledge about geological carbon (CO2 ) sequestration
  2. Students are able to understand the principle of carbon (CO2 ) sequestration in geology
  3. Students are able to understand and analyze reservoir characterization for carbon sequestration (CO )2
  4. Students are able to understand and analyze containment and geomechanics for carbon sequestration (CO )2
  5. Students are able to perform site selection for CO injection2
Metode PembelajaranKBL : Knowledge Based Learning PBL : Problem Based Learning CBL : Case-Based Learning PjBL : Project-Based LearningKBL : Knowledge Based Learning PBL : Problem Based Learning CBL : Case-Based Learning PjBL : Project-Based Learning
Modalitas PembelajaranLuring, Daring, Singkron, AsingkronOffline, Online, Synchronous, Asynchronous
Jenis NilaiABCDE
Metode PenilaianTertulis : Uraian, Esai Tugas : LaporanWritten : Description, Essay Tasks : Report
Catatan Tambahan