Student Type: Aikuisopiskelija
Electrical energy storages and electric vehicles
Core content: Introduction to energy storage: why storage of electricity and energy in general is an important topic for the future? Overview of battery technology: primary and secondary batteries, basic battery characteristics, conventional secondary battery technologies (lead-acid, Ni-MH etc.), introduction to lithium-ion technology. Lithium-ion battery technology for electrical engineers: operation principle and main components of…
Seasonal energy storage and conversion technologies
You can also complete 3 ECTS. The application is same as for the 5 ECTS version. Course contents Learning outcomes By the end of the course, the student Teaching methods Lectures (recordings available) and exercises. There is no group work. Exam or other equivalent assessment (most likely homework 30 % + report 70 %). More…
Power electronic application in smart grids
This course provides an overview and understanding different power electronic converter topologies in different applications in smart grids and their control. In addition, the student has knowledge about control of different type of power electronic solutions during different operation modes like grid-connected and islanded operation. In addition, power system stability supporting control methods are presented…
Mobile application development
Max amount of FITech students: unlimited amount of adult learners and 30 degree students. The need and importance of mobile applications has increased a lot recent years and they have replaced web applications on many areas. This can also be seen in the job market. Mobile applications are portable and can easily access and use…
Functional programming
Course contents Learning outcomes After completing the course, the student knows the basic programming structures for functional programming and is able to write programs in a functional programming language. is aware of the benefits of functional programming style and can solve problems in the functional programming way. Teaching schedule Self-study. Possibility to consult the teacher…
Biofuels engineering and energy technology
The course follows the contents (not all) of the reference book: Biofuels Engineering and Technology (Springer) written by the responsible teacher. The course is divided mainly into two sections. In the first section, the focus is on the questions: After delineating the aspects related to light harvesting (utilization of radiation by biological devices seen as…
Circular economy for energy storage
At this course, the students learn the theoretical context of circular economy and how activity, durability and recyclability of an energy storage application will be affected by material selection. The students get to evaluate the whole life cycle of different solutions and their effect on recyclability. The students prepare different scenarios for future energy storage…
Electrochemical energy conversion
Max amount of FITech students: 20 Persons without a valid study right at a Finnish university or university of applied sciences have preference to this course. During this course, different type of electrochemical cells used for electrochemical energy conversion and storage applications are presented. These include for example batteries, fuel cells and hydrogen electrolyser. The…
Tietojärjestelmien perusteet
Maksimimäärä FITech-opiskelijoita: 30 Kurssille etusijalla ovat ne henkilöt, joilla ei ole voimassaolevaa opinto-oikeutta suomalaiseen korkeakouluun. Kurssin sisältö Osaamistavoitteet Kurssin suoritettuaan opiskelija osaa Opetus Kurssi on suoritettavissa täysin verkossa kurssin alussa ilmoitetun aikataulun mukaisesti. Oman työskentelynsä voi ajoittaa opiskeluviikon sisällä itse. Kurssilla ei ole tenttiä. Kurssi päivitetään kesällä (2025), pieniä muutoksia sisältöön ja tehtäviin voi tulla.…
Introduktion till artificiell intelligens
Kursen ger en överblick över de olika delområden inom artificiell intelligens. Vi behandlar dessa via exempel. Vi framhåller ett kritiskt perspektiv och diskuterar både möjligheter med och gränser för artificiell intelligens. Kursinnehåll Lärandemål Efter avlagd kurs känner studeranden till, och kan beskriva de viktigaste metoderna, och tillämpningsområden inom artificiell intelligens. Studeranden kan kritiskt följa med…