Battery and Storage SystemsLaajuus (4 op)
Tunnus: TE00BX19
Laajuus
4 op
Osaamistavoitteet
After completing the course, student will
· have basic understanding of typical battery cell structures and chemistries
· evaluate how to selects suitable cell type for an application
· evaluate the safety concerns related to different cell types
· apply knowledge how individual cells are connected together to form a battery modules and systems
· understands the functions of a battery management systems and how the typical BMS implementations are done
· evaluate the operation of a battery charging systems
· apply knowledge for redox flow battery, fuel cell and flywheel based electrical energy storage systems
Sisältö
1. Introduction to battery systems
2. Battery chemistry
3. Primary cells
4. Secondary cells, Lead-acid and NiMH
5. Secondary cells, Li-ion
6. Li-ion battery Safety
7. Battery Management Systems
8. Battery stacks, Vehicle Battery Systems
9. Battery storages
10. Alternative storage systems
11. Charging systems
12. Laboratory exercise
Esitietovaatimukset
Prerequisites: Renewable energy production, Introduction to power electronics
Ilmoittautumisaika
01.06.2024 - 29.08.2024
Ajoitus
02.09.2024 - 13.12.2024
Opintopistemäärä
4 op
Toteutustapa
Lähiopetus
Yksikkö
Tekniikka ja liiketoiminta
Opetuskielet
- Suomi
Koulutus
- Energia- ja ympäristötekniikan koulutus
Opettaja
- Jonna Heikkilä
- Jussi Hurri
- Ossi Koskinen
Ryhmät
-
PEYTES22Energia- ja ympäristötekniikka S22
-
PEYTES21Energia- ja ympäristötekniikka S21
Tavoitteet
After completing the course, student will
· have basic understanding of typical battery cell structures and chemistries
· evaluate how to selects suitable cell type for an application
· evaluate the safety concerns related to different cell types
· apply knowledge how individual cells are connected together to form a battery modules and systems
· understands the functions of a battery management systems and how the typical BMS implementations are done
· evaluate the operation of a battery charging systems
· apply knowledge for redox flow battery, fuel cell and flywheel based electrical energy storage systems
Sisältö
1. Introduction to battery systems
2. Battery chemistry
3. Primary cells
4. Secondary cells, Lead-acid and NiMH
5. Secondary cells, Li-ion
6. Li-ion battery Safety
7. Battery Management Systems
8. Battery stacks, Vehicle Battery Systems
9. Battery storages
10. Alternative storage systems
11. Charging systems
12. Laboratory exercise
Oppimateriaalit
Material to be shared in Itslearning
Opetusmenetelmät
Lessons, independent knowledge acquisition, group work
Tenttien ajankohdat ja uusintamahdollisuudet
No exam
Toteutuksen valinnaiset suoritustavat
-
Opiskelijan ajankäyttö ja kuormitus
Homeworks, laboratory assignment, project work
Sisällön jaksotus
The course includes onsite lectures and laboratory work. The course starts week 36 and ends week 48.
Content:
-Electrochemistry
-Redox-reactions
-Primary cells and secondary cells
- Cell measurements
-Types of storage systems
-Integration and applications of storage systems
Viestintäkanava ja lisätietoja
Communication channel to teachers is email.
Arviointiasteikko
H-5
Arviointimenetelmät ja arvioinnin perusteet
Laboratory assignment (50 % of the grade) and project work (50 % of the grade)
- Participation in the laboratory exercises and lectures related to project work are mandatory
Other criteria:
- Homework assignments are not graded
- All homework assignments need to be completed
Hylätty (0)
Homeworks are not completed.
Project work:
- Presentation of project work is inconsistent with no results.
Laboratory assignment:
Evaluation criteria 1-2 are not met
Arviointikriteerit, tyydyttävä (1-2)
Project work:
- Application of basic knowledges seen during lectures are mastered. Presentation is also basic but enough to display main results.
Laboratory assignment:
The initial tasks have been done and most of the measurements have been successful.
Arviointikriteerit, hyvä (3-4)
Project work:
- Application of concepts seen during lectures are mastered. Presentation is well and shows the commitment to realize this project.
Laboratory assignment:
All measurements have been successful and are clearly presented in the report.
Arviointikriteerit, kiitettävä (5)
Project work:
- Application of all concepts seen during lectures are mastered. Presentation is well. Student group is making initiative and autonomous in the work.
Laboratory assignment:
The report is thorough and illustrative
Esitietovaatimukset
Prerequisites: Renewable energy production, Introduction to power electronics
Ilmoittautumisaika
01.06.2023 - 03.09.2023
Ajoitus
04.09.2023 - 15.12.2023
Opintopistemäärä
4 op
Toteutustapa
Lähiopetus
Yksikkö
Tekniikka ja liiketoiminta
Opetuskielet
- Englanti
Paikat
10 - 50
Koulutus
- Energia- ja ympäristötekniikan koulutus
Opettaja
- Maximilien Marc
- Jonna Heikkilä
- Jussi Hurri
Ryhmät
-
PEYTES20Energia- ja ympäristötekniikka s20
-
PEYTES21Energia- ja ympäristötekniikka S21
Tavoitteet
After completing the course, student will
· have basic understanding of typical battery cell structures and chemistries
· evaluate how to selects suitable cell type for an application
· evaluate the safety concerns related to different cell types
· apply knowledge how individual cells are connected together to form a battery modules and systems
· understands the functions of a battery management systems and how the typical BMS implementations are done
· evaluate the operation of a battery charging systems
· apply knowledge for redox flow battery, fuel cell and flywheel based electrical energy storage systems
Sisältö
1. Introduction to battery systems
2. Battery chemistry
3. Primary cells
4. Secondary cells, Lead-acid and NiMH
5. Secondary cells, Li-ion
6. Li-ion battery Safety
7. Battery Management Systems
8. Battery stacks, Vehicle Battery Systems
9. Battery storages
10. Alternative storage systems
11. Charging systems
12. Laboratory exercise
Tenttien ajankohdat ja uusintamahdollisuudet
No exam.
Toteutuksen valinnaiset suoritustavat
-
Sisällön jaksotus
The course starts on week 36 and last until week 44. The course includes onsite lectures and laboratory work.
Content:
-Electrochemistry
-Redox-reactions
-Primary cells and secondary cells
- Cell measurements
-Types of storage systems
-Integration and applications of storage systems
Viestintäkanava ja lisätietoja
Communication to teachers preferably by email.
Arviointiasteikko
H-5
Arviointimenetelmät ja arvioinnin perusteet
Laboratory assignment (50 % of the grade) and project work (50 % of the grade)
Other criteria:
- Homework assignments are not graded
- All homework assignments need to be completed
- Participation in the laboratory exercises and lectures related to project work are mandatory
Hylätty (0)
Project work:
- Presentation of project work is inconsistent with no results.
Laboratory assignment:
Evaluation criteria 1-2 are not met
Arviointikriteerit, tyydyttävä (1-2)
Project work:
- Application of basic knowledges seen during lectures are mastered. Presentation is also basic but enough to display main results.
Laboratory assignment:
The initial tasks have been done and most of the measurements have been successful.
Arviointikriteerit, hyvä (3-4)
Project work:
- Application of concepts seen during lectures are mastered. Presentation is well and shows the commitment to realize this project.
Laboratory assignment:
All measurements have been successful and are clearly presented in the report.
Arviointikriteerit, kiitettävä (5)
Project work:
- Application of all concepts seen during lectures are mastered. Presentation is well. Student group is making initiative and autonomous in the work.
Laboratory assignment:
The report is thorough and illustrative
Esitietovaatimukset
Prerequisites: Renewable energy production, Introduction to power electronics
Ilmoittautumisaika
01.06.2022 - 26.08.2022
Ajoitus
05.09.2022 - 31.12.2022
Opintopistemäärä
4 op
Toteutustapa
Lähiopetus
Yksikkö
Tekniikka ja liiketoiminta
Opetuskielet
- Englanti
Koulutus
- Energia- ja ympäristötekniikan koulutus
Opettaja
- Dominique Roggo
- Miikka Säteri
- Samuli Ranta
Ryhmät
-
PEYTES20Energia- ja ympäristötekniikka s20
Tavoitteet
After completing the course, student will
· have basic understanding of typical battery cell structures and chemistries
· evaluate how to selects suitable cell type for an application
· evaluate the safety concerns related to different cell types
· apply knowledge how individual cells are connected together to form a battery modules and systems
· understands the functions of a battery management systems and how the typical BMS implementations are done
· evaluate the operation of a battery charging systems
· apply knowledge for redox flow battery, fuel cell and flywheel based electrical energy storage systems
Sisältö
1. Introduction to battery systems
2. Battery chemistry
3. Primary cells
4. Secondary cells, Lead-acid and NiMH
5. Secondary cells, Li-ion
6. Li-ion battery Safety
7. Battery Management Systems
8. Battery stacks, Vehicle Battery Systems
9. Battery storages
10. Alternative storage systems
11. Charging systems
12. Laboratory exercise
Arviointiasteikko
H-5
Esitietovaatimukset
Prerequisites: Renewable energy production, Introduction to power electronics