Kode Mata KuliahSB5044 / 4 SKS
Penyelenggara224 - Sains Kebumian / FITB
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahPotensi Energi Terbarukan LautOcean Renewable Energy Potential
Bahan Kajian
  1. Pendahuluan: bauran energi global, perubahan iklim dan keberlanjutan, sistem jaringan listrik, energi terbarukan laut, energi dan daya.
  2. Energi Pasang Surut: - Analisis dan prediksi pasang surut - Asimetri pasang surut - Karakteristik pasang surut di suatu lokasi: profil kecepatan, rapat daya, elips pasang surut, energi kinetik - Perangkat arus pasang surut: turbin sumbu horizontal, turbin sumbu vertikal, hidrofoil berosilasi, perangkat efek venturi, tidal kites, arrays) - Hidrodinamika dasar turbin sumbu horizontal: koefisien daya dan the Betz limit) - Energi potensial: tunggang pasang surut (laguna dan bendungan)
  3. Energi Gelombang Laut: - Review gelombang laut: teori gelombang linier, persamaan dispersi, energi gelombang dan daya gelombang, gelombang acak, gelombang nonlinier - Transformasi gelombang akibat pendangkalan perairan: efek pendangkalan, refraksi gelombang, difraksi - Sea state: tinggi dan periode gelombang - Konverter energi gelombang (wave energy conveter / WEC): jenis-jenis teknologi (attenuator, surface point absorber, oscillating wave surge converter, oscillating water column, overtopping devices) - Parameter-parameter penentu lokasi pemasangan WEC: daya gelombang rata-rata, coefficient of variance (CoV), optimum hotspot identifier (OHI), wave development index (WEDI), kedalaman, jarak dari pantai - Power matrix - Penilaian potensi sumber daya gelombang: teoritis, teknis, dan praktis
  4. Energi Arus Laut: - Variabilitas - Jenis teknologi - Dampak lingkungan
  5. Konversi Energi Termal Laut (Ocean Thermal Energy Conversion / OTEC): - OTEC siklus tertutup - OTEC siklus terbuka - Termodinamika OTEC - Dampak lingkungan
  6. Energi Gradien Salinitas
  1. Pendahuluan: bauran energi global, perubahan iklim dan keberlanjutan, sistem jaringan listrik, energi terbarukan laut, energi dan daya.
  2. Tidal Energy: Tide Analysis and Prediction: Tidal Asymmetry Tidal Characteristics at a Location: Velocity Profiles, Power Density, Tidal Ellipses, - - Kinetic Energy Tidal Current Devices: Horizontal Axis Turbines, Vertical Axis Turbines, Oscillating Hydrofoils, Venturi Effect Devices, Tidal Kites, Arrays Basic Hydrodynamics of Horizontal Axis Turbines: Power Coefficient and the Betz Limit Potential Energy: Tidal Range (Lagoons and Barrages)
  3. Wave Energy: Review of Ocean Waves: Linear Wave Theory, Dispersion Equation, Wave Energy and Power, Random Waves, Nonlinear Waves Wave Transformation Due to Shallowing: Shoaling Effect, Wave Refraction, Diffraction Sea State: Wave Height and Period Wave Energy Converters (WEC): Types of Technology (Attenuator, Surface Point Absorber, Oscillating Wave Surge Converter, Oscillating Water Column, Overtopping Devices) Parameters for Determining WEC Installation Sites: Average Wave Power, Coefficient of Variance (CoV), Optimum Hotspot Identifier (OHI), Wave Development Index (WEDI), Depth, Distance from Shore Power Matrix Assessment of Wave Resource Potential: Theoretical, Technical, and Practical
  4. Ocean Current Energy: Variability Types of Technology Environmental Impact
  5. Ocean Thermal Energy Conversion (OTEC): Closed Cycle OTEC Open Cycle OTEC Thermodynamics of OTEC Environmental Impact
  6. Salinity Gradient Energy
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu menjelaskan jenis-jenis energi terbarukan dari laut
  2. Mampu menjelaskan lokasi perairan yang berpotensi untuk dimanfaatkan dalam menghasilkan energi listrik, khususnya perairan Indonesia
  3. Mampu menjelaskan konsep dasar, metodologi, dan prinsip kerja jenis-jenis energi terbarukan dari laut
  4. Mampu menghitung potensi sumber daya laut sebagai sumber energi terbarukan
  1. Capable of explaining the types of renewable energy from the ocean.
  2. Capable of explaining potential water locations for electricity generation, especially in Indonesian waters.
  3. Capable of explaining the basic concepts, methodologies, and working principles of different types of marine renewable energy.
  4. Capable of calculating the potential of marine resources as renewable energy sources.
Metode PembelajaranKnowledge Based Leaning, Skill Based Learning, Problem based learning (PBL), Case-based Learning (CBL)Knowledge Based Leaning, Skill Based Learning, Problem based learning (PBL), Case-based Learning (CBL)
Modalitas PembelajaranLuring, Sinkron, AsinkronOffline, Synchronous, Asynchronous
Jenis NilaiABCDE
Metode PenilaianUraian, Esai, Presentasi, Praktik, LaporanDescription, Essay, Presentation, Practice, Report
Catatan TambahanJika sangat banyak hari libur nasional, dimungkinkan kuliah daringOnline classes are feasible if there are many public holidays