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Course unit, curriculum year 2022–2023
EE.REE.320
Wind Power Systems, 5 cr
Tampere University
- Description
- Completion options
Teaching periods
Active in period 1 (1.8.2022–23.10.2022)
Active in period 2 (24.10.2022–31.12.2022)
Active in period 3 (1.1.2023–5.3.2023)
Active in period 4 (6.3.2023–31.5.2023)
Active in period 5 (1.6.2023–31.7.2023)
Course code
EE.REE.320Language of instruction
EnglishAcademic years
2021–2022, 2022–2023, 2023–2024Level of study
Advanced studiesGrading scale
General scale, 0-5Persons responsible
Responsible teacher:
Sami Repo, Luennot ja kokonaisuusResponsible teacher:
Kalle Ruuth, HarjoitustyötResponsible organisation
Faculty of Information Technology and Communication Sciences 100 %
Coordinating organisation
Electrical Engineering Studies 100 %
Common learning outcomes
Sustainable development
Core content
- An overview of the wind energy industry and technology
- Energy extracted from the wind
- Wind turbines and their operation
- Energy extracted from the wind
- Generators
- Induction and synchronous machines
- Wind energy conversion: Fixed- and variable-speed systems
- Introduction to "standard" electrical models of wind turbines
- Induction and synchronous machines
- Principles of wind farm design
- Wind measurements and forecastings
- Layouts and array losses
- Electrical connections, connection requirements, connection costs, internal control of a farm
- Impact of large-scale wind power on the power system: steady-state performance
- Congestion management
- Transmission efficiency
- Adequacy of grid
- Adequacy of power
- Congestion management
- Impact of large-scale wind power on the power system: Dynamic performance
- Smoothing phenomena
- Impacts on power system frequency control and reserves
- Wind turbine's capability to provide
- Grid code requirements (Fault ride through, ramp rates)
- Frequency and non-frequency ancillary services (FFR, FCR-N, voltage control)
- Stability impacts
- Impact of large-scale wind power on electricity market
- Price impacts on wholesale, balancing and reserve markets
- Capacity value of wind power
- Operation of wind farms on electricity markets: economic dispatch, forecasting, co-optimization with hydro power, trading, balance management
- Price impacts on wholesale, balancing and reserve markets
Complementary knowledge
- The wind resource
- Reduced-order and aggregated models
- Connection contracts
- Offshore farms
- Experiences from Europe and Finland
- Smoothing controls
- Wind energy curtailment and storage
- Integration with other energy sectors: heat, transportation and gas
- Power system oscillations and damping control of wind turbines
Specialist knowledge
- 100 % renewable energy system
Learning outcomes
Prerequisites
Recommended prerequisites
Further information
Learning material
Equivalences
Studies that include this course
Completion option 1
To attend the lectures, to pass the one final exam and to submit all the assignments
Completion of all options is required.
Participation in teaching
24.10.2022 – 12.12.2022
Active in period 2 (24.10.2022–31.12.2022)
Exam
20.09.2021 – 30.09.2022
Active in period 1 (1.8.2022–23.10.2022)
20.09.2022 – 30.09.2023
Active in period 1 (1.8.2022–23.10.2022)
Active in period 2 (24.10.2022–31.12.2022)
Active in period 3 (1.1.2023–5.3.2023)
Active in period 4 (6.3.2023–31.5.2023)
Active in period 5 (1.6.2023–31.7.2023)
Independent study
25.10.2022 – 12.12.2022
Active in period 2 (24.10.2022–31.12.2022)
25.10.2022 – 12.12.2022
Active in period 2 (24.10.2022–31.12.2022)