Graduate study programme

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Energy Storage and Reversibility DE4I-07

ECTS 5 | P 30 | A 15 | L 15 | K 0 | ISVU 149790 | Academic year: 2019./2020.

Course groups

Prikaži sve grupe na predmetu

Course lecturers

MAJDANDŽIĆ LJUBOMIR, xLecturer

Goals

Introduce students to the importance of energy storage and energy conversion as well as contemporary methods of energy reversibility.

Conditions for enrollment

Requirements met for enrolling in the second year of the study programme

Course description

Energy storage model. Reversibility principle. System entropy. Anergy and exergy of a system. Law of conservation of energy. Storing energy as kinetic energy. Storing energy as potential and reversible energy. Electricity storage. Energy storage in a capacitor. Supercapacitors. Water electrolysis devices. Storing energy as thermal energy. Hydrogen and fuel cells. Electric vehicles.

Student requirements

Defined by the Student evaluation criteria of the Faculty of Electrical Engineering, Computer Science and Information Technology Osijek and paragraph 1.9

Monitoring of students

Defined by the Student evaluation criteria of the Faculty of Electrical Engineering, Computer Science and Information Technology Osijek and paragraph 1.9

Obligatory literature

1. 1 Bošnjaković, F. Nauka o toplini, Svezak prvi, drugi i treći Graphis, Zagreb, 2012.


Pretraži literaturu na:

Recommended additional literature

1. 1 Incropera, F.P., DeWitt, D.P. Fundamentals of Heat and Mass Transfer John Wiley, New York, 1996.

2. 2 Winter, C-J, Nitsch, J. Wasserstoff als Energieträger, Technik, Systeme und Wirtschaft Springer-Verlag Berlin, Heidelberg, 1986.

Course assessment

Conducting university questionnaires on teachers (student-teacher relationship, transparency of assessment criteria, motivation for teaching, teaching clarity, etc.). Conducting Faculty surveys on courses (upon passing the exam, student self-assessment of the adopted learning outcomes and student workload in relation to the number of ECTS credits allocated to activities and courses as a whole).

Overview of course assesment

Learning outcomes
Upon successful completion of the course, students will be able to:

1. explain the principle of storage and reversibility of energy

2. analyze modes of storage and reversibility of energy

3. calculate the energy ratio of the device for electrolysis and energy from fuel cells

4. calculate the storage and reversibility of energy in an electric vehicle



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