Sustainable Energy
Description
Energy has become a very important technological and business field in the modern world. We need new and sustainable energy resources, along with efficient technologies for their absorption and use. The knowledge provided in the Sustainable Energy study program will help develop the production and use of renewable energy, as well as the search for and saving of energy resources.
The goal of the study program is to prepare a new generation of specialists capable of creating and designing smart energy systems, processes, and equipment, implementing renewable energy sources, and analyzing environmental pollution caused by energy systems and opportunities for its reduction. The energy sector is a highly dynamic field of activity prone to innovation. Companies require motivated specialists who are capable of creating and implementing the latest sustainable energy technologies. Sustainable Energy – these are studies for those who want to contribute to sustainable changes in the energy sector.
Keywords
#energy #renewableresources #saulėsenergetika | #solarenergy #windenergy #hydroenergy #biomassenergy #hydrogenenergy #energysaving #energysystems
The energy sector is a highly dynamic and innovation-intensive field of activity. Companies require motivated specialists capable of creating and implementing the latest sustainable energy technologies.
Ralfas Lukoševičius, Commercial Director at UAB ADDECO
The energy studies provided the opportunity to develop, specialize in the highly promising field of renewable energy, and laid the foundation for career prospects. The knowledge, research, and design methods acquired during my studies are still in use today.
Augustinas Pėtelis, Alumnus, Project Engineer at UAB Ignitis
The studies expanded my understanding of the importance of renewable energy in modern society. I realized that my choice was correct, and the selected field is interesting and significant. While studying, I had the opportunity to participate in interesting scientific research and experiment in laboratories.
Aldas Trijonis, Student
Partners
Engineering studies are carried out in close cooperation with social partners by organizing masterclasses, project activities, and educational events. Business companies renovate laboratories and enable the use of the latest engineering solutions in the study process, propose topics for scientific research work with practical application, consult on career issues, and create job opportunities.
Curriculum
| Course | Lecturer | ECTS Credits |
| Measurements in Biosystem Engineering | Eglė Jotautienė | 6 |
| Mathematical Statistics and Modelling | Eglė Jotautienė | 6 |
| Research Methodology | Dainius Steponavičius | 6 |
| Renewable Energy Sources | Antanas Kavolynas | 6 |
| Research Work 1 | Kęstutis Navickas | 6 |
| Course | Lecturer | ECTS Credits |
| Energy Storage and Smart Grids | Kęstutis Venslauskas | 6 |
| Integration of Renewable Energy to Energy Systems | Kęstutis Navickas | 6 |
| Life Cycle Assessment of Renewable Energy | Kęstutis Venslauskas | 6 |
| Reliability of Mechanical and Energy Systems | Juozas Padgurskas | 6 |
| Research Work 2 | Kęstutis Navickas | 6 |
| Course | Lecturer | ECTS Credits |
| Thermotechnological Processes in Energetics | Aušra Čiplienė | 6 |
| Research Work 3 | Kęstutis Navickas | 6 |
| Optional courses I | ||
| Thermal Transformation Systems | Egidijus Zvicevičius | 6 |
| Heat and Mass Transfer | Aušra Čiplienė | 6 |
| Thermoengineering of Production Buildings | Egidijus Zvicevičius | 6 |
| Hydropower | Petras Punys | 6 |
| Wind Energetics | Antanas Kavolynas | 6 |
| Hydrogen Energy | Liudas Pranevičius | 6 |
| Biomass Production Engineering | Algirdas Jasinskas | 6 |
| Engineering of Biofuels and Biolubricants | Stasys Slavinskas | 6 |
| Engineering of Solid Biofuels and Biogas | Kęstutis Navickas | 6 |
| Sustainable Energy Economics and Policy | Saulė Milčiuvienė | 6 |
| Environmental Pollution Management | Arvydas Kanapickas | 6 |
| Methods for Assessing Environmental Impacts | Audrius Dėdelė | 6 |
| Course | Lecturer | ECTS Credits |
| Master Graduation Thesis | 30 |
