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Sähköiset energiavarastot

Structure Type: Study unit
Code: TT00BI94
Curriculum: SAT 2022 / 2022V / 2023 / 2024 / 2024V
TT 2022 / 2023 / 2024 / V2022 / V2024
VAPVAL 2022
Level: Bachelor of Engineering
Year of Study: 3 (2024-2025 / 2025-2026 / 2026-2027)
Credits: 5 cr
Responsible Teacher: Hautala, Jukka
Language of Instruction: Finnish

Courses

Impl.Group(s)Study TimeTeacher(s)LanguageEnrolment
3001ET2020-3, ET2020-3A, ET2020-3B, IT2020-3, IT2020-3A, IT2020-3B, IT2020-3C, IT2020-3D, KT2020-3, KT2020-3A, KT2020-3B, KT2020-3C, ST2020-3, ST2020-3A, ST2020-3B, ST2020-3C, ST2020-3D, ST2020V-3, ST2020V-3A, TT2020-3, TT2020-3A, TT2020-3B, TT2020-3C, TT2020V-3, TT2020V-3A, TT2020V-3B, YT2020-3, YT2020-3A, YT2020-3B2022-08-29 – 2022-12-17Jukka HautalaFinnish2022-08-01 – 2022-09-06
3002ET2021-3, ET2021-3A, ET2021-3B, IT2021-3, IT2021-3A, IT2021-3B, IT2021-3C, IT2021-3D, KT2021-3, KT2021-3A, KT2021-3B, KT2021-3C, ST2021-3, ST2021-3A, ST2021-3B, ST2021-3C, ST2021-3D, TT2021-3, TT2021-3A, TT2021-3B, TT2021-3C, TT2021-3D, YT2021-3, YT2021-3A, YT2021-3B2023-08-28 – 2023-12-16Jukka HautalaFinnish2023-08-01 – 2023-09-06
3005ET2022-3, ET2022-3A, ET2022-3B, IT2022-3, IT2022-3A, IT2022-3B, KT2022-3, KT2022-3A, KT2022-3B, KT2022-3C, SAT2022-3, SAT2022-3A, SAT2022-3B, SAT2022-3C, SAT2022-3D, SAT2022V-3, SAT2022V-3A, SAT2022V-3B, TT2022-3, TT2022-3A, TT2022-3B, TT2022-3C, TT2022-3D, TT2022V-3, TT2022V-3A, TT2022V-3B, YT2022-32024-09-02 – 2024-12-14Jukka HautalaFinnish2024-08-01 – 2024-09-06

The descriptions shown below are for the academic year: 2024-2025

Learning Outcomes

After completing the course, the student knows how and why electrical energy is stored. The student can discuss the importance of electrical energy storage from the perspective of the electricity network and society. The student is familiar with different energy storage technologies, with an emphasis on battery technologies. The student is familiar with the key concepts and technologies of battery sizing and battery management. The student can calculate the life cycle cost of energy storage.

Student's Workload

135 hours, with 45 hours of contact teaching.

Prerequisites / Recommended Optional Courses

Technology field basic studies.

Contents

Electricity storage applications. Electricity network needs for energy storage. Energy storage technologies. Technologies and terminology for battery-based energy storage. Battery Management System (BMS). Energy Management Systems (EMS). Energy storage life cycle cost.

Recommended or Required Reading and Other Learning Resources/Tools

Material shared by the teacher.

Mode of Delivery / Planned Learning Activities and Teaching Methods

Contact teaching, exercises, online teaching, and independent studies.

Assessment Criteria

Grade 5: The student can provide creative solutions in all the course-related exercises.
Grade 3: The student can solve the course-related exercises.
Grade 1: The student can solve the basic course-related exercises.

Assessment Methods

Teacher's evaluation, assignments, and an exam.


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