Electrical Energetics Systems Engineering
Vilnius Gediminas Technical University
Key Information
Campus location
Vilnius, Lithuania
Languages
English
Study format
On-Campus
Duration
2 years
Pace
Full time
Tuition fees
EUR 5,410 / per year *
Application deadline
15 Jun 2024
Earliest start date
01 Sep 2024
* For non-EU students
Introduction
Electrical Energetics Systems Engineering
Programme is focused to provide the modern knowledge from the electrical energy systems engineering and related fields, necessary for specialists developing modern electric power systems, to develop ability to apply the knowledge professionally. Students will gain special knowledge in electrical energy system engineering, necessary for application of modern technologies and independent development of new products and services, and to perform applied researches in electric power system engineering area. To develop the abilities to creatively apply of theoretical knowledge and scientific investigation results, and to improve professional competence during whole life learning.
Admissions
Scholarships and Funding
Several scholarship options are available. Please check the University website for more information.
Several scholarship options are available. Please check the University website for more information:
Deadline: April 20th
Curriculum
1 semester
- Electrical Power and Renewable Energy Engineering
- Electrical Energy and Market
- Mathematical Modelling Technologies
- Master's Research Work 1
- Electrical Power Systems (with Course Project)
- Fundamentals of Research and Innovations
- Electrical Energetics Technologies
- Electrical Energy and Market
- Mathematical Modelling Technologies
- Master's Research Work 1
- Fundamentals of Research and Innovations
- Electrical Power Systems (with Course Project)
2 semester
- Electrical Power and Renewable Energy Engineering
- Electronic Converters (with Course Project)
- Modern Electrical Engineering
- Master's Research Work 2
- Control of Electrical Energy Systems
- Modern Electric Drives
- Algorithms and Data Structures
- Systemotechnique and Sensors
- Electrical Energetics Technologies
- High - Voltage Devices
- Master's Research Work 2
- Power Electronics (with Course Project)
- Control of Electrical Energy Systems
- Modern Electric Drives
- Algorithms and Data Structures
- Systemotechnique and Sensors
3 semester
- Wind Energy Systems
- Photovoltaic Energy Systems
- Master's Research Work 3
- Free choice obligatory course
- Hydropower and Biofuel
- Electromagnetic Pulse Power Technologies
- Evolutionary Computation and Agent Systems
- Data Mining Techniques
- Electrical Energetics Technologies
- Electrical Energy Storage Devices
- Smart Energy Systems and Relay Protection
- Master's Research Work 3
- Free choice obligatory course
- Electromagnetic Pulse Power Technologies
- Evolutionary Computation and Agent Systems
- Data Mining Techniques
4 semester
- Electrical Power and Renewable Energy Engineering
- Master Graduation Thesis
- Electrical Energetics Technologies
- Master Graduation Thesis
Program Outcome
What Will Students Learn?
- Very specialized knowledge in the field of electrical energy systems engineering related to research and development of the new products and services, necessary in the development, service and improvement of photovoltaic and wind energy systems.
- An ability to independently develop, maintain and improve modern electric energy systems, photovoltaic and wind energy systems.
- Skills to select and use mathematical methods, software and hardware in order to solve problems in the electrical energy systems engineering area, and analyse and interpret results.
Program Tuition Fee
Career Opportunities
Electrical energy systems engineering master students are able to work in companies maintaining electric power systems, self-manage groups of people preparing electrical engineering projects or continue their doctoral studies in electronics, telecommunications and computer science field.
Program delivery
2 years (4 semesters) graduation is finalized with the defense of Final project