| Bahan Kajian | - Pendahuluan: bauran energi global, perubahan iklim dan keberlanjutan, sistem jaringan listrik, energi terbarukan laut, energi dan daya.
- 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)
- 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
- Energi Arus Laut:
- Variabilitas
- Jenis teknologi
- Dampak lingkungan
- Konversi Energi Termal Laut (Ocean Thermal Energy Conversion / OTEC):
- OTEC siklus tertutup
- OTEC siklus terbuka
- Termodinamika OTEC
- Dampak lingkungan
- Energi Gradien Salinitas
| - Pendahuluan: bauran energi global, perubahan iklim dan keberlanjutan, sistem jaringan listrik, energi terbarukan laut, energi dan daya.
- 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)
- 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
- Ocean Current Energy:
Variability
Types of Technology
Environmental Impact
- Ocean Thermal Energy Conversion (OTEC):
Closed Cycle OTEC
Open Cycle OTEC
Thermodynamics of OTEC
Environmental Impact
- Salinity Gradient Energy
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mampu menjelaskan jenis-jenis energi terbarukan dari laut
- Mampu menjelaskan lokasi perairan yang berpotensi untuk dimanfaatkan dalam menghasilkan energi listrik, khususnya perairan Indonesia
- Mampu menjelaskan konsep dasar, metodologi, dan prinsip kerja jenis-jenis energi terbarukan dari laut
- Mampu menghitung potensi sumber daya laut sebagai sumber energi terbarukan
| - Capable of explaining the types of renewable energy from the ocean.
- Capable of explaining potential water locations for electricity generation, especially in Indonesian waters.
- Capable of explaining the basic concepts, methodologies, and working principles of different types of marine renewable energy.
- Capable of calculating the potential of marine resources as renewable energy sources.
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