Energy Technology of Power Plant (5 cr)
Code: TX00EW45-3001
General information
- Enrollment
-
27.11.2023 - 31.12.2023
Registration for the implementation has ended.
- Timing
-
15.01.2024 - 10.05.2024
Implementation has ended.
- Number of ECTS credits allocated
- 5 cr
- Local portion
- 3 cr
- Virtual portion
- 2 cr
- Mode of delivery
- On-campus and online
- Unit
- (2019-2024) School of Smart and Clean Solutions
- Teaching languages
- Finnish
- Seats
- 0 - 50
- Degree programmes
- Degree Programme in Energy and Environmental Technology
Implementation has 16 reservations. Total duration of reservations is 48 h 30 min.
| Time | Topic | Location |
|---|---|---|
|
Tue 16.01.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 23.01.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 30.01.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 06.02.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 13.02.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 27.02.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 05.03.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
MMA135a Energia- ja ympäristötekniikan laboratorio |
|
Tue 12.03.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
MMA135a Energia- ja ympäristötekniikan laboratorio |
|
Tue 19.03.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
MMA135a Energia- ja ympäristötekniikan laboratorio |
|
Tue 26.03.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
MMA135a Energia- ja ympäristötekniikan laboratorio |
|
Tue 02.04.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
MMA135a Energia- ja ympäristötekniikan laboratorio |
|
Tue 09.04.2024 time 08:00 - 11:00 (3 h 0 min) |
Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
MMA135a Energia- ja ympäristötekniikan laboratorio |
|
Tue 16.04.2024 time 08:00 - 11:00 (3 h 0 min) |
Laboratorioharjoitukset (erillinen ilmoittautuminen) - Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
MMA135a Energia- ja ympäristötekniikan laboratorio |
|
Tue 23.04.2024 time 08:00 - 11:00 (3 h 0 min) |
Tentti - Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 30.04.2024 time 08:00 - 11:00 (3 h 0 min) |
Tentti - Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA214
Auditorio Corner
|
|
Tue 07.05.2024 time 08:00 - 11:30 (3 h 30 min) |
Tentti - Voimalaitoksen energiatekniikka TX00EW45-3001 |
MMA135a
Energia- ja ympäristötekniikan laboratorio
|
Objective
The student knows the basic applications of thermodynamics. The student will be able to apply the laws of thermodynamics to heat engines, and understand the limitations of the laws. The student will be able to calculate physical quantities of thermodynamic processes and cycles, such as pressure, volume and temperature. He/she also will also be able to calculate thermal efficiencies of heat engines. The student will understand the thermodynamics of the most important heat engines and devices used in power plants.
Content
-Clausius-rankine cycle, reheating and preheating
-Thermodynamics of Moist air
-Heat pumps and refrigeration cycles
-Calculations of Flue gases
-Internal combustion engines
-Renewable energy
Location and time
N/A
Materials
Y. A. Cengel Thermodynamics an Engineering Approach SI-edition
Teaching methods
-Lectures
-Homeworks
-Laboratory exercise
-Exercise (ICE)
Employer connections
N/A
Exam schedules
N/A
International connections
N/A
Completion alternatives
N/A
Student workload
N/A
Content scheduling
N/A
Further information
N/A
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The student understand the basics of thermodynamics and can solve simple calculations.
The student knows the basics of heat engines.
Assessment criteria, good (3)
The student can solve simple problems and calculations of thermodynamics.
The student is familiar with the basics of heat engines and can solve ideal heat engine calculations.
The student can solve applied thermodynamic calculations and equations for chemical reactions, and specify the composition of the flue gases.
Assessment criteria, excellent (5)
The student understands the concepts and laws of thermodynamics and knows how to use them to solve problems.
The student can solve applied thermodynamic calculations and equations.
Assessment criteria, approved/failed
The student understand the basics of thermodynamics and can solve simple calculations.
The student knows the basics of heat engines.
Assessment methods and criteria
N/A
Qualifications
The student knows the laws of thermodynamics and understands the limitations of the laws of thermodynamics. The student can do an energy analysis for the system. The student understands the basics of fluid mechanics and can calculate the pressure loss of pipes. The student knows the basics of electricity and heat production.