Combustion EngineeringPoäng (6 sp)
Kod: ET22TE01
Poäng
6 op
Studieperiodens (kursens) lärandemål
After completing the course, students are expected to have knowledge about the design of production-relevant internal combustion engines. They should master the thermodynamic and combustion technology basics as well as constructive aspects of manufacturing methods, material selection, etc.
Furthermore, students should also have knowledge about emission formation from different diesel and otto processes and knowledge about the methods to reduce the emissions.
Studieperiodens (kursens) innehåll
PART 1: Internal Combustion Engine - fundamentals
1) Introduction to Engine types
2) Design and operating parameters
3) Thermodynamic processes and cycles
4) Thermochemistry of Fuel-Air mixtures
5) Gas Exchange processes
6) Pollutant Formation and Control
7) Modelling and simulation
PART 2: Combustion Technologies
1) Principles
- Burning of gaseous-, liquid-, solid fuels
Förkunskapskrav
No prerequisites.
Bedömningskriterier, tillräcklig (1)
The student knows:
- different types of engines and working principles
- the main parts of the combustion engine, gas exchange and combustion.
- various thermodynamic processes, properties and calculations.
- how the use of the internal combustion engine in different contexts and disciplines.
Bedömningskriterier, goda-synnerligen goda (3-4)
The student knows how different components and design affect engine performance and emission formation. The student is able to calculate and select significant engine components.
Bedömningskriterier, berömliga (5)
The student is able to independently:
- design different IC engine applications.
- design technical solutions that affect the combustion engine.
- Calculate mass forces, torques and vibrations in the internal combustion engine.
- argue for and present different choices of engines and technical solutions.
Anmälningstid
02.07.2024 - 22.09.2024
Tajmning
02.09.2024 - 15.12.2024
Antal studiepoäng
6 op
Prestationssätt
Kontaktundervisning
Ansvarig enhet
Institutionen för teknik och sjöfart
Verksamhetspunkt
Vasa, Wolffskavägen 33
Undervisningsspråk
- Englanti
Utbildning
- Energy Technology
- Utbildning i el- och automationsteknik
Lärare
- Kaj Rintanen
Lärare
Ronnie Sundsten
Grupper
-
ET24D-VEnergy Technology, 2024
Lärandemål
After completing the course, students are expected to have knowledge about the design of production-relevant internal combustion engines. They should master the thermodynamic and combustion technology basics as well as constructive aspects of manufacturing methods, material selection, etc.
Furthermore, students should also have knowledge about emission formation from different diesel and otto processes and knowledge about the methods to reduce the emissions.
Innehåll
PART 1: Internal Combustion Engine - fundamentals
1) Introduction to Engine types
2) Design and operating parameters
3) Thermodynamic processes and cycles
4) Thermochemistry of Fuel-Air mixtures
5) Gas Exchange processes
6) Pollutant Formation and Control
7) Modelling and simulation
PART 2: Combustion Technologies
1) Principles
- Burning of gaseous-, liquid-, solid fuels
Vitsordsskala
H-5
Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)
The student knows:
- different types of engines and working principles
- the main parts of the combustion engine, gas exchange and combustion.
- various thermodynamic processes, properties and calculations.
- how the use of the internal combustion engine in different contexts and disciplines.
Arviointikriteerit, goda-synnerligen goda (3-4)
The student knows how different components and design affect engine performance and emission formation. The student is able to calculate and select significant engine components.
Arviointikriteerit, berömliga (5)
The student is able to independently:
- design different IC engine applications.
- design technical solutions that affect the combustion engine.
- Calculate mass forces, torques and vibrations in the internal combustion engine.
- argue for and present different choices of engines and technical solutions.
Förkunskapskrav
No prerequisites.
Anmälningstid
15.06.2023 - 17.09.2023
Tajmning
04.09.2023 - 03.12.2023
Antal studiepoäng
6 op
Prestationssätt
Kontaktundervisning
Ansvarig enhet
Institutionen för teknik och sjöfart
Verksamhetspunkt
Vasa, Wolffskavägen 33
Undervisningsspråk
- Englanti
Utbildning
- Energy Technology
- Utbildning i el- och automationsteknik
Lärare
- Kaj Rintanen
Lärare
Ronnie Sundsten
Grupper
- ET23 (Storlek: 30. Öppet universitet: 0.)
- ELA21-E (Storlek: 30. Öppet universitet: 0.)
Grupper
-
ET23D-VEnergy Technology, 2023
-
ELA21D-VIngenjör (YH), el- och automationsteknik, 2021, dagstudier
Smågrupper
- ET23
- ELA21-E
Lärandemål
After completing the course, students are expected to have knowledge about the design of production-relevant internal combustion engines. They should master the thermodynamic and combustion technology basics as well as constructive aspects of manufacturing methods, material selection, etc.
Furthermore, students should also have knowledge about emission formation from different diesel and otto processes and knowledge about the methods to reduce the emissions.
Innehåll
PART 1: Internal Combustion Engine - fundamentals
1) Introduction to Engine types
2) Design and operating parameters
3) Thermodynamic processes and cycles
4) Thermochemistry of Fuel-Air mixtures
5) Gas Exchange processes
6) Pollutant Formation and Control
7) Modelling and simulation
PART 2: Combustion Technologies
1) Principles
- Burning of gaseous-, liquid-, solid fuels
Vitsordsskala
H-5
Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)
The student knows:
- different types of engines and working principles
- the main parts of the combustion engine, gas exchange and combustion.
- various thermodynamic processes, properties and calculations.
- how the use of the internal combustion engine in different contexts and disciplines.
Arviointikriteerit, goda-synnerligen goda (3-4)
The student knows how different components and design affect engine performance and emission formation. The student is able to calculate and select significant engine components.
Arviointikriteerit, berömliga (5)
The student is able to independently:
- design different IC engine applications.
- design technical solutions that affect the combustion engine.
- Calculate mass forces, torques and vibrations in the internal combustion engine.
- argue for and present different choices of engines and technical solutions.
Förkunskapskrav
No prerequisites.