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Wind Power SystemsLaajuus (5 cr)

Code: VV3V3314OJ

Credits

5 op

Teaching language

  • Finnish

Responsible person

  • Aila Petäjäjärvi

Objective

In the basics of wind power technology, knowledge related to wind power energy, production, legislation and YVA procedures is learned at a general level. The course introduces the basics of wind energy conversion, the main components of a wind turbine, the operating principle of a turbine, the equations of power production, the conversion of wind power into electricity and the energy efficiency of a wind farm, and the establishment of a wind farm.

Content

Wind power systems course content:
- Wind energy overview
- Wind power conversion fundamentals
- Wind turbine main components, Turbine operation principle, Turbine power equations: theory of wind turninsand energy producibility
- Control systems and power generation systems
- Wind power plants

Assessment criteria, satisfactory (1)

The student knows the basic concepts of wind power technology. The student is able to explain the production of wind power and phenomena related to wind energy and to understand technical solutions and phenomena related to wind power production and wind energy.

Assessment criteria, good (3)

The student is part of the basic concepts of wind power technology. The student is able to describe technical solutions and phenomena related to wind power generation and wind energy, and is able to utilize what he / she has learned in practice.

Assessment criteria, excellent (5)

The student knows the basic concepts of wind power technology, knows the technical solutions and phenomena related to wind power production and wind energy, and is able to utilize and apply the practice he / she has learned independently.

Assessment criteria, approved/failed

The assignments must be completed 90% and the examination must be required for the assessed course performance.

Enrollment

02.10.2023 - 07.01.2024

Timing

08.01.2024 - 17.05.2024

Credits

5 op

Virtual proportion (cr)

5 op

Mode of delivery

Distance learning

Teaching languages
  • Finnish
Seats

0 - 80

Degree programmes
  • Degree Programme Electrical and Automation Engineering
Teachers
  • Aila Petäjäjärvi
Responsible person

Aila Petäjäjärvi

Student groups
  • KA53S22S
  • K53S22S

Objective

In the basics of wind power technology, knowledge related to wind power energy, production, legislation and YVA procedures is learned at a general level. The course introduces the basics of wind energy conversion, the main components of a wind turbine, the operating principle of a turbine, the equations of power production, the conversion of wind power into electricity and the energy efficiency of a wind farm, and the establishment of a wind farm.

Content

Wind power systems course content:
- Wind energy overview
- Wind power conversion fundamentals
- Wind turbine main components, Turbine operation principle, Turbine power equations: theory of wind turninsand energy producibility
- Control systems and power generation systems
- Wind power plants

Evaluation scale

H-5

Assessment criteria, satisfactory (1)

The student knows the basic concepts of wind power technology. The student is able to explain the production of wind power and phenomena related to wind energy and to understand technical solutions and phenomena related to wind power production and wind energy.

Assessment criteria, good (3)

The student is part of the basic concepts of wind power technology. The student is able to describe technical solutions and phenomena related to wind power generation and wind energy, and is able to utilize what he / she has learned in practice.

Assessment criteria, excellent (5)

The student knows the basic concepts of wind power technology, knows the technical solutions and phenomena related to wind power production and wind energy, and is able to utilize and apply the practice he / she has learned independently.

Assessment criteria, approved/failed

The assignments must be completed 90% and the examination must be required for the assessed course performance.

Enrollment

06.03.2023 - 13.08.2023

Timing

28.08.2023 - 15.12.2023

Credits

5 op

Virtual proportion (cr)

5 op

Mode of delivery

Distance learning

Teaching languages
  • Finnish
Seats

0 - 100

Teachers
  • Aila Petäjäjärvi
Responsible person

Aila Petäjäjärvi

Student groups
  • KA53S20SV
  • KA53S20S
  • KA53S20AU

Objective

In the basics of wind power technology, knowledge related to wind power energy, production, legislation and YVA procedures is learned at a general level. The course introduces the basics of wind energy conversion, the main components of a wind turbine, the operating principle of a turbine, the equations of power production, the conversion of wind power into electricity and the energy efficiency of a wind farm, and the establishment of a wind farm.

Content

Wind power systems course content:
- Wind energy overview
- Wind power conversion fundamentals
- Wind turbine main components, Turbine operation principle, Turbine power equations: theory of wind turninsand energy producibility
- Control systems and power generation systems
- Wind power plants

Evaluation scale

H-5

Assessment criteria, satisfactory (1)

The student knows the basic concepts of wind power technology. The student is able to explain the production of wind power and phenomena related to wind energy and to understand technical solutions and phenomena related to wind power production and wind energy.

Assessment criteria, good (3)

The student is part of the basic concepts of wind power technology. The student is able to describe technical solutions and phenomena related to wind power generation and wind energy, and is able to utilize what he / she has learned in practice.

Assessment criteria, excellent (5)

The student knows the basic concepts of wind power technology, knows the technical solutions and phenomena related to wind power production and wind energy, and is able to utilize and apply the practice he / she has learned independently.

Assessment criteria, approved/failed

The assignments must be completed 90% and the examination must be required for the assessed course performance.

Enrollment

03.10.2022 - 09.01.2023

Timing

02.01.2023 - 12.05.2023

Credits

5 op

Virtual proportion (cr)

5 op

RD proportion (cr)

1 op

Mode of delivery

Distance learning

Teaching languages
  • Finnish
Seats

0 - 80

Teachers
  • Aila Petäjäjärvi
Responsible person

Aila Petäjäjärvi

Student groups
  • KA53S20SV
  • KA53S21Sr3
  • KA53S20S
  • KA53S21Sr1
  • KA53S20AU
  • KA53S21Sr2
  • KA53S21Sr4

Objective

In the basics of wind power technology, knowledge related to wind power energy, production, legislation and YVA procedures is learned at a general level. The course introduces the basics of wind energy conversion, the main components of a wind turbine, the operating principle of a turbine, the equations of power production, the conversion of wind power into electricity and the energy efficiency of a wind farm, and the establishment of a wind farm.

Content

Wind power systems course content:
- Wind energy overview
- Wind power conversion fundamentals
- Wind turbine main components, Turbine operation principle, Turbine power equations: theory of wind turninsand energy producibility
- Control systems and power generation systems
- Wind power plants

Evaluation scale

H-5

Assessment criteria, satisfactory (1)

The student knows the basic concepts of wind power technology. The student is able to explain the production of wind power and phenomena related to wind energy and to understand technical solutions and phenomena related to wind power production and wind energy.

Assessment criteria, good (3)

The student is part of the basic concepts of wind power technology. The student is able to describe technical solutions and phenomena related to wind power generation and wind energy, and is able to utilize what he / she has learned in practice.

Assessment criteria, excellent (5)

The student knows the basic concepts of wind power technology, knows the technical solutions and phenomena related to wind power production and wind energy, and is able to utilize and apply the practice he / she has learned independently.

Assessment criteria, approved/failed

The assignments must be completed 90% and the examination must be required for the assessed course performance.

Enrollment

15.11.2021 - 21.12.2021

Timing

03.01.2022 - 08.05.2022

Credits

5 op

Virtual proportion (cr)

5 op

Mode of delivery

Distance learning

Teaching languages
  • Finnish
Seats

0 - 70

Teachers
  • Aila Petäjäjärvi
Responsible person

Aila Petäjäjärvi

Objective

In the basics of wind power technology, knowledge related to wind power energy, production, legislation and YVA procedures is learned at a general level. The course introduces the basics of wind energy conversion, the main components of a wind turbine, the operating principle of a turbine, the equations of power production, the conversion of wind power into electricity and the energy efficiency of a wind farm, and the establishment of a wind farm.

Content

Wind power systems course content:
- Wind energy overview
- Wind power conversion fundamentals
- Wind turbine main components, Turbine operation principle, Turbine power equations: theory of wind turninsand energy producibility
- Control systems and power generation systems
- Wind power plants

Evaluation scale

H-5

Assessment criteria, satisfactory (1)

The student knows the basic concepts of wind power technology. The student is able to explain the production of wind power and phenomena related to wind energy and to understand technical solutions and phenomena related to wind power production and wind energy.

Assessment criteria, good (3)

The student is part of the basic concepts of wind power technology. The student is able to describe technical solutions and phenomena related to wind power generation and wind energy, and is able to utilize what he / she has learned in practice.

Assessment criteria, excellent (5)

The student knows the basic concepts of wind power technology, knows the technical solutions and phenomena related to wind power production and wind energy, and is able to utilize and apply the practice he / she has learned independently.

Assessment criteria, approved/failed

The assignments must be completed 90% and the examination must be required for the assessed course performance.