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Course unit, curriculum year 2023–2024
EE.EES.310
Introduction to Smart Grids and Renewable Energy, 5 cr
Tampere University
- Description
- Completion options
Teaching periods
Active in period 1 (1.8.2023–22.10.2023)
Active in period 2 (23.10.2023–31.12.2023)
Active in period 3 (1.1.2024–3.3.2024)
Course code
EE.EES.310Language of instruction
EnglishAcademic years
2021–2022, 2022–2023, 2023–2024Level of study
Basic studiesGrading scale
General scale, 0-5Persons responsible
Responsible teacher:
Seppo ValkealahtiResponsible teacher:
Pertti JärventaustaResponsible organisation
Faculty of Information Technology and Communication Sciences 100 %
Coordinating organisation
Electrical Engineering Studies 100 %
Core content
- Overview of Smart Grids: Definitions, aims and drivers, functions, role of various actors.
- Overview of Power systems: Production and consumption, transmission and distribution networks, distributed generation, protection and automation, ICT systems.
- Electricity market: Actors, energy trading, network business, open European level energy market.
- Customers as part of Smart Grids: Energy measurements, AMR and load modelling, home energy management systems.
- Distributed energy resources as part of Smart Grids: Distributed generation and its impacts in electricity networks (protection, voltage, reliability), electric vehicles.
- ICT solutions for Smart Grids.
- Energy sources and their sufficiency and usage: Primary energy sources, renewable vs. non-renewable primary energy and energy conversions in power production.
- Renewable energy sources in power production: Current usage of renewable energy sources, renewable energy resources, potential of renewable energy in power production and development of renewable energy technologies.
- Wind power: Wind energy resources, conversion of wind energy to electrical energy, current usage of wind power and wind power in the future.
- Solar photovoltaic power: Conversion of solar radiation energy directly to electric energy via photovoltaic phenomenon, resources of solar energy globally and locally, the current usage of solar PV power, Solar PV power in the future on the market and technology development point of view and it's future role in power production.
- Hydropower capacity and current usage in power production. Conversion of mechanical energy of water to electrical energy. Current and future role of hydropower for power systems.
- Bio-energy as a source of power, current usage of bio-energy in general, conversion of bio-energy to electrical energy and current and future usage of bio-energy in power production.
- Other renewable energy sources for power production: An overview on the resources, usage and future utilization potential of wave energy, tidal energy, geothermal energy, ocean current energy etc.
- An overview on climatic change and the role of power production preventing climatic change.
Complementary knowledge
- Network operation and planning, reliability and power quality issues.
- Network business regulation.
- Use of AMR in network management.
- Micro-grids.
Learning outcomes
Further information
Learning material
Equivalences
Studies that include this course
Completion option 1
The prerequisite is a successful completion of the seminar work and an exam.
Completion of all options is required.
Participation in teaching
29.08.2023 – 16.10.2023
Active in period 1 (1.8.2023–22.10.2023)