Power Plant Technics (5 cr)
Code: TERP0600-3005
General information
Enrollment
01.08.2023 - 24.08.2023
Timing
15.08.2023 - 19.12.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 60
Degree programmes
- Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
- Petri Rantakokko
Scheduling groups
- TER22S1 (Capacity: 30. Open UAS: 0.)
- TER22SM (Capacity: 30. Open UAS: 0.)
Groups
-
TER22S1Energia- ja ympäristötekniikka (AMK)
-
TER22SMEnergia- ja ympäristötekniikka (AMK)
Small groups
- Scheduling group 1
- Scheduling group 2
Objectives
The Students will learn different Energy Sources, Production Methods and main parts of Power Stations including processing of Fuels and Water and also Turbin Technics.
Content
Energy sources, fuels and their main features, different types of Power Stations like Combined Heat and power Generation, Hydropower, Windpower,Solar Power, Structure and Production Methods of Power Stations, Processing and Structure of Water and Condensing Water Systems, Turbin Technics.
Learning materials and recommended literature
Luentomateriaali
Voimalaitostekniikka; Markku Huhtinen, Risto Korhonen, Tuomo Pimiä, Samu Urpalainen
Teaching methods
Luennot, tiedonhaku ja soveltavat oppimistehtävät
Tehtävät yksilökohtaisia tai ryhmätehtäviä
Exam dates and retake possibilities
Tentti joulukuussa, kaksi uusintamahdollisuutta tammikuussa
Alternative completion methods
Muulla tavalla hankitun osaamisen opinnollistaminen sovitaan opinjakson opettajan kanssa tapauskohtaisesti
Student workload
Luentoja 52 h
Oppimistehtäviä 28 h
Itsenäinen opiskelu 55 h
Yhteensä 135 h
Further information for students
Kurssin arvosana koostuu:
- 80 % Tentistä
- 20 % Oppimistehtävistä
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Satisfactory (1-2): The student is familiar with the basic knowledge but in applying the essential knowledge the skills are inadequate; however, the student has mainly achieved the learning objectives of the course.
Evaluation criteria, good (3-4)
Good (3-4): The student masters some of the concepts and methods and is able to apply them.
Evaluation criteria, excellent (5)
Very good (4-5): The student masters the essential knowledge and skills required to get the grade Good (3) and can apply the knowledge acquired in a critical and innovative manner to problem solving.
Prerequisites
Energy economy, Basics of Thermodynamics, Student understands basics of power technics and knows the structure of energy systems