Basics of Energy and Environmental Engineering (5 ECTS)
Code: TX00FN48-3002
General information
- Enrollment
-
05.05.2025 - 31.08.2025
Enrollment is ongoing
Enroll to the implementation in OMA
- Timing
-
25.08.2025 - 12.12.2025
The implementation has not yet started.
- Number of ECTS credits allocated
- 5 ECTS
- Virtual portion
- 3 ECTS
- Mode of delivery
- On-campus and online
- Unit
- (2019-2024) School of Smart and Clean Solutions
- Teaching languages
- Finnish
- Seats
- 0 - 80
- Degree programmes
- Degree Programme in Energy and Environmental Technology
- Teacher in charge
- Juha Juselius
- Groups
-
TXO25S2Energia- ja ympäristötekniikan tutkinto-ohjelma, monimuoto
- Course
- TX00FN48
Implementation has 1 reservations. Total duration of reservations is 8 h 0 min.
Time | Topic | Location |
---|---|---|
Fri 19.09.2025 time 08:00 - 16:00 (8 h 0 min) |
Energia- ja ympäristötekniikan perusteet TX00FN48-3002 |
MMC345
Oppimistila
|
Objective
The student will recognise the importance of urban planning for the sustainability of the community. The student knows the basics of energy production and its importance for the functioning of society. The student understands the importance of sustainable use of clean water and water resources for society.
Content
- Sustainable development in the field of energy and environment
- Energy systems
- Energy sources and primary energy
- Centralised and distributed energy production
- Basics of sustainable communities
Location and time
Lukujärjestyksen mukaisesti.
Materials
Opettajan osoittama materiaali.
Kurssikirjat soveltuvin osin:
Kara, M, Helynen, S, et al. (2004). Energia Suomessa: Tekniikka, talous ja ympäristövaikutukset. 3. täysin uudistettu painos., VTT Technical Research Centre of Finland.
Perttula, J, (2000). Energiatekniikka. WS Bookwell Oy. Porvoo. ISBN 951-0-24909-2.
Mines, R. O. (2014). Environmental Engineering. Wiley-Blackwell. (Saatavilla e-kirjana kirjaston kautta.)
Teaching methods
Luennot ja laskuharjoitukset lähi- ja hybridiopetuksena.
Vesityökorttikoulutus.
Vesipäivään osallistuminen.
Harjoitustyöt.
Oppimispäiväkirja.
Employer connections
Valmistuneiden opiskelijoiden vierailijaluennot.
Exam schedules
Sovitaan aloitusluennolla.
Completion alternatives
Valtaosan opintojaksosta voi suorittaa itsenäisesti verkossa Moodle-oppimisympäristön kautta.
Student workload
– Luennot ja laskuharjoitukset 40 h
– Oppimispäiväkirja 25 h
– Harjoitustyö 25 h
– Vesityökorttikoulutus 8 h
– Muu itsenäinen opiskelu 20 h
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The student knows the principles of sustainable development. The student knows the concepts of energy and environmental engineering and understands the relevance of the degree in the context of sustainable development.
Assessment criteria, good (3)
The student knows how the principles of sustainable development are related to energy production and society. The student knows the concepts of energy and environmental engineering and understands the relevance of sustainable development in her/his own field of study. The student will understand the interdependencies between environmental problems and human activities.
Assessment criteria, excellent (5)
The student is able to apply the principles of sustainable development to energy production and society. The student is familiar with different approaches to assessing the impact of human activities related to sustainable development. The student is able to analyse the interdependencies between environmental problems and human activities. The student is familiar with the concepts of energy and environmental engineering and understands the relevance of his/her field in the context of sustainable development.
Assessment criteria, approved/failed
The student knows the principles of sustainable development. The student knows the concepts of energy and environmental engineering and understands the relevance of the degree in the context of sustainable development.
Assessment methods and criteria
Kurssin loppuarvosana määräytyy seuraavin perustein:
– Tentti 35 %
– Harjoitustyöt 30 %
– Kestävän kehityksen kotitehtävä (hyväksytty/hylätty)
– Oppimispäiväkirja 35 %
– Vesityökorttikoulutus (hyväksytty/hylätty)
– KEKE-kotitehtävä ja vesityökorttikoulutus suoritettava hyväksytysti
Qualifications
The student understands simple natural phenomena and has basic mathematical and scientific skills related to the calculation of natural phenomena.