Student Type: Adult learner
Business models for smart energy systems
The course introduces students to the analysis of existing and forthcoming business models for smart energy systems with different new stakeholders/technologies their applications through several managerially-oriented frameworks tools to understand how companies generate and transform their business models. From such bases, participants will study how these frameworks work in future energy systems. The analysis of…
Distribution automation
This course covers automation functions and examples of electricity distribution grids. Course contents Learning outcomes After the course, the student Course material Text book (available as e-book) and lecture material in English available on the webpage of the course. Teaching methods Lectures (also available as recordings). There will be an exam and laboratory work/written work.…
Battery recycling and ecosystems
This course will give the student an overview of battery recycling and ecosystems. During the course, mechanical and chemical processes for battery recycling are studied. Battery recycling is considered from the sustainability viewpoint, taking into account environmental and economic issues and related legislation of battery recycling. Some recent industrial activities of battery recycling are considered.…
Introduction to wind and solar energy technology
The course is alternative with the course Wind power and solar energy technology and business (5 ECTS). Both cannot be studied. Course contents Learning outcomes Upon completion of the course the student will be able to Course material Material handed out in class, mostly lecture videos. Materials will be found on the course Moodle platform.…
Wind power and solar energy technology and business
The course is an alternative to the course Introduction to wind and solar energy technology (2 ECTS). Both cannot be studied. Course contents Process modelling from kinetic energy of wind into company turnover and from solar radiation to turnover. Basic components of a wind power plant (turbine, gearbox, generator, power electronics, tower). Environmental effects of…
Thermal energy storage systems theory
Max amount of FITech students: 30 Persons without a valid study right at a Finnish university or university of applied sciences have preference to this course. To decarbonise heating sector, we also need thermal storage options and this course provides the basic concepts of different Thermal Energy Storage options. This course is aimed at a…
Electrical energy storage systems theory
Max amount of FITech students: 30 Persons without a valid study right at a Finnish university or university of applied sciences have preference to this course. During this course, we take a broader look at the interphases of electrical networks and electrical energy storages. Course contents This course presents an overview of energy storage and…
Vaatimusmäärittely
Maksimimäärä FITech-opiskelijoita: 30 Kurssille valitaan ensisijaisesti sellaisia henkilöitä, joilla ei ole voimassaolevaa opiskeluoikeutta suomalaiseen korkeakouluun. Kurssilla aiheena on vaatimusmäärittely ohjelmistoprojektissa, kurssi antaa yleiskuvauksen vaatimusmäärittelystä ja eri tekniikoista. Kurssilla käsiteltyjä aiheita vaatimusmäärittelystä demonstroidaan ketterän ohjelmistokehityksen käytänteiden mukaan. Kurssin sisältö Vaatimusten jäljitettävyys Eri sidosryhmien näkökulmat ja vaatimusten kategoriat Vaatimusten muutokset Ongelmanratkaisumenetelmät Vaatimusmäärittelyn taidot ja tekniikat iteratiivisessa kehitysympäristössä…
Ohjelmointi 2
Maksimimäärä FITech-opiskelijoita: 30 aikuisopiskelijaa Kurssilla perehdytään olio-ohjelmoinnin peruskäsitteisiin ja Java-ohjelmointikielen perusteisiin. Opittuja asioita sovelletaan käytäntöön harjoitusten ja viikko-/kotitehtävien muodossa. Tehtäviä tulee palauttaa tasaiseen tahtiin kevään ajan. Tehtävät ja niiden palautus ohjeistetaan, harjoituksissa on tarjolla apua ongelmiin. Kurssin opetus (luennot ja harjoitukset) ovat kampuksella (F2F), luennoille voit osallistua myös Zoomin kautta. Voit myös opiskella kurssin sisällön…
Programming 3: Interfaces
After completing the course, the student is able to participate in the implementation of a larger software product. The programming language is Java (no prior experience needed). Course contents Learning outcomes After completing the course, the student Completion methods To complete the course, the student must obtain enough points from exercises and pass an electronic…