Courses in Energy
Bachelor courses
- Electromagnetics I : Transmission lines and waves (EE-200 / 3 credits)
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Energy conversion (EE-360 / 4 credits)
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Heat and Mass Transfer Course (ME-341, 4 credits)
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Introduction to turbomachinery (ME-342 / 2 credits)
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Lab in energy conversion (EE-390(b) / 3 credits)
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Power electronics (EE-365 / 4 credits)
- Power Systems Analysis (EE-362 / 5 credits)
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Thermodynamics and energetics I (ME-251 / 4 credits)
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Thermodynamics and energetics II (ME-351 / 3 credits)
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Thermodynamics for materials science (MSE-204 / 4 credits)
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Sustainability and materials (MSE-341 / 3 credits)
Master courses
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Advanced energetics (ME-451 / 5 credits)
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Advanced heat transfer (ME-465 / 3 credits)
- Advanced lab in electrical energy systems (EE-588 / 4 credits)
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Energy and comfort in buildings (ENG-445 / 4 credits)
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Energy conversion and renewable energy (ME-409 / 4 credits)
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Energy storage in power systems: technologies, applications and future needs (EE-466 / 3 credits)
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Energy supply, economics and transition (ENG-410 / 2 credits)
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Fundamentals & processes for photovoltaic devices (MICRO-565 / 3 credits)
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Hydraulic turbomachines (ME-453 / 4 credits)
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Hydroacoustique pour aménagements hydroélectriques (ME-443 / 3 credits)
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Hydropower plants: generating and pumping units (EE-456 / 2 credits)
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Lab in electrical energy systems (EE-490(c) / 4 credits)
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Material and energy flow analysis (ENV-501 / 4 credits)
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Modelling and optimization of energy systems (ME-454 / 4 credits)
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Nanoscale Heat Transfer (ME-469, 4 credits)
- Power Systems Analysis (EE-362 / 5 credits)
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Power systems dynamics (EE-470 / 3 credits)
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Power system restructuring and deregulation (EE-570 / 3 credits)
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Renewable energy (for ME) (ME-460 / 4 credits)
- Smart Grids Technologies (EE-472 / 5 credits)
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Solar energy conversion (ME-468 / 4 credits)
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Thermal power cycles and heat pump systems (ME-459 / 3 credits)
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Thermodynamics of energy conversion and storage (ChE-414 / 3 credits)
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Transitions, sustainability and technology policy(MGT-408 / 4 credits)
PhD courses
- Biomass conversion (ENG-618 / 2 credits)
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Digitalization in electricity systems (ENG-601 / 2 credits)
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Energy Autonomous Wireless Smart Systems (MICRO-617 / 3 credits)
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Modelling, optimisation, design and analysis of integrated energy systems
(ME-602 / 2 credits)
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NRG2019: Energy Systems: managing the transition to renewables (ENG-636 / 2 credits)
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Power electronics for renewable applications (ENG-612 / 3 credits)