Traffic, Engine Technology and Emission ControlLaajuus (8 cr)
Code: TE00CO01
Credits
8 op
Objective
- name the main components of the internal combustion engine and understand their functioning
- determine the most important values related to the combustion engine and interpret their meaning
- determine the air supply need of the internal combustion engine and understand the air-fuel ratio
- name different exhaust emission components and know their origin, negative effects and ways to decrease them
-
Content
1. combustion engine applications and classifications
2. operating principle of the combustion engine
3. cylinder dimensions, stroke-to-bore ratio, mean piston speed
4. otto and diesel cycles
5. 2 and 4 cycle engines
6. engine torque, power and efficiency
7. mean effective cylinder pressure
8. brake specific fuel consumption
9. air requirement for combustion, lambda value
10. fuels ? combustion ? combustion products
11. classification of emissions, influences and harms
12. gasoline and diesel emissions and emission control
13. emission testing and legislation
14. greenhouse emissions and climate change
15. vehicle energy consumption, influence of driving style
Enrollment
08.11.2023 - 12.01.2024
Timing
15.01.2024 - 27.05.2024
Number of ECTS credits allocated
8 op
Virtual portion
8 op
Mode of delivery
Distance learning
Unit
Logistics, Services and Industrial Management
Campus
Location-independent
Teaching languages
- Finnish
Seats
14 - 92
Degree programmes
- Degree Programme in Automotive and Transportation Engineering
Teachers
- Markku Ikonen
- Harri Heikkinen
- Marjo Kumpula
Scheduling groups
- Avoimen AMK:n kiintiöpaikat. Ilmoittaudu ilman tätä pienryhmää (Size: 30. Open UAS: 30.)
Groups
-
AVOKULJS23Green Traffic
Small groups
- Open UAS quota. Please enroll without selecting this group
Objective
- name the main components of the internal combustion engine and understand their functioning
- determine the most important values related to the combustion engine and interpret their meaning
- determine the air supply need of the internal combustion engine and understand the air-fuel ratio
- name different exhaust emission components and know their origin, negative effects and ways to decrease them
-
Content
1. combustion engine applications and classifications
2. operating principle of the combustion engine
3. cylinder dimensions, stroke-to-bore ratio, mean piston speed
4. otto and diesel cycles
5. 2 and 4 cycle engines
6. engine torque, power and efficiency
7. mean effective cylinder pressure
8. brake specific fuel consumption
9. air requirement for combustion, lambda value
10. fuels ? combustion ? combustion products
11. classification of emissions, influences and harms
12. gasoline and diesel emissions and emission control
13. emission testing and legislation
14. greenhouse emissions and climate change
15. vehicle energy consumption, influence of driving style
Content scheduling
KURSSIN TOTEUTUS KEVÄÄLLÄ 2024 PERUTTU
Evaluation scale
Hyväksytty/Hylätty
Enrollment
03.01.2023 - 26.03.2023
Timing
03.04.2023 - 15.05.2023
Number of ECTS credits allocated
8 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
0 - 50
Degree programmes
- Degree Programme in Automotive and Transportation Engineering
Teachers
- Markku Ikonen
- Marjo Kumpula
Scheduling groups
- Vain avoimen AMK:n opiskelijoille (Tutkinto-opiskelija ilmoittaudu joka tapauksessa, toteutus ei ole vain avoimen opiskelijoille) (Size: 30. Open UAS: 30.)
Groups
-
AVOKULJK23Green Traffic
Small groups
- For Open UAS students only
Objective
- name the main components of the internal combustion engine and understand their functioning
- determine the most important values related to the combustion engine and interpret their meaning
- determine the air supply need of the internal combustion engine and understand the air-fuel ratio
- name different exhaust emission components and know their origin, negative effects and ways to decrease them
-
Content
1. combustion engine applications and classifications
2. operating principle of the combustion engine
3. cylinder dimensions, stroke-to-bore ratio, mean piston speed
4. otto and diesel cycles
5. 2 and 4 cycle engines
6. engine torque, power and efficiency
7. mean effective cylinder pressure
8. brake specific fuel consumption
9. air requirement for combustion, lambda value
10. fuels ? combustion ? combustion products
11. classification of emissions, influences and harms
12. gasoline and diesel emissions and emission control
13. emission testing and legislation
14. greenhouse emissions and climate change
15. vehicle energy consumption, influence of driving style
Evaluation scale
H-5