The aim is to educate an engineer at management level – electro-technical officer of ships, who, by applying the knowledge of technological, economic, social, environmental, and natural sciences, would be able to safely operate the unlimited power ships’ electromechanical, electronic and control equipment of propulsion and auxiliary machinery; to perform the investigation into the service activity and to analyse the outcomes from a professional and economic viewpoint; to perform the control of activity in compliance with national and international general and maritime regulations, IMO conventions, national classification societies, national quality standards, and the requirements for safe navigation.
Degree: Professional Bachelor of Engineering Sciences, Electro-Technical Officer, Engineer
Career: Master
More information in the AIKOS System.
Professors: ship electromechanics, marine engineers, mechanical engineering researchers and scientists, and professional seafarers who base their knowledge on personal experience of working at sea
Full time
Part time
Practice on board ships
Career
Upon completing their studies, a student at the level of Engineering Activities will be able to properly operate, maintain, and repair ship electrical and electronic equipment, as well as ship control systems, automation, electrical distribution, and electrical systems where the voltage exceeds 1000 V. They will have knowledge of the main and auxiliary mechanisms crucial for the ship’s performance and safety, adhering to project management principles and following safety regulations for ship, electrical, and energy equipment.
They will also be responsible for managing and organizing the electromechanical part of the ship and ensuring compliance with international conventions, national maritime laws, and workplace safety requirements.
In their educational practices and during their studies, specialized computer programs and electronic simulators are extensively applied, simulating real information systems operating in ports such as Klaipeda and others. This ensures that students encounter no difficulties when it comes to practical experience or starting their professional careers.
Study Program Objective
To prepare highly qualified electro-mechanical engineers regulated by International Maritime Organization conventions, who will be maritime electrical engineering specialists capable of:
- Understanding and applying general principles and laws of engineering, electrical engineering, natural sciences, and environmental sciences to ensure the operation and technical maintenance of electrical, electronic, power plant, control and distribution equipment, as well as propulsion and auxiliary mechanisms;
- Independently read, draw, and analyze electrical diagrams using information technology, conduct service activity research, analyze technical performance results, and make effective engineering decisions to achieve economically beneficial outcomes;
- Lead the ship’s electro-mechanical service, plan, manage, and control its activities;
- Apply modern information and communication technologies;
- Safely operate, maintain, and troubleshoot ship’s electro-mechanical equipment, taking into account various factors affecting system reliability and availability, technical maintenance procedures, appropriate selection of tools and instruments, and compliance with national, international maritime laws, conventions, electrical quality standards, safe navigation, and other requirements.
Practice
During the internship, after completing a 12-month comprehensive practical skills training program, of which 6 months are spent at sea, a maritime degree is awarded, and a maritime degree diploma is issued.
Students carry out professional internships in companies with which the program’s instructors maintain close long-term professional cooperation. After completing the professional internship, companies often offer students the opportunity to continue working within the company.
Practical training in the operation of ship electrical equipment is an integral part of the study program. The ship’s electrical equipment operation practice consists of three parts:
- Cold forging and welding practice at the end of the first year;
- Technical maintenance and repair practice of ship electrical equipment at the end of the second year;
- Maritime navigation practice in the third year.
Internship locations:
- Cold forging and welding practice is conducted in the workshops of the Lithuanian Maritime School of Higher Education;
- Technical maintenance and repair practice of ship electrical equipment is carried out in shipbuilding and repair companies;
- Navigation practice is performed on board a ship, which means that during the designated study period, the student spends time at sea. Maritime navigation practice is conducted in international crews on various ships in different navigation regions around the world.
Why Choose This Study Program?
- This study program is the only collegiate-level maritime engineering program in the country that complies with the requirements of the International Maritime Organization’s STCW conventions. Upon completion, it grants a professional bachelor’s degree in maritime engineering and qualification as a ship electromechanic;
- For a ship electromechanic, whose professional activities are related to the implementation of technological innovations, this program provides essential competencies in fundamental sciences, advanced technologies, and professional competence in English, based on the results of scientific research and analysis of professional activities;
- Due to the constantly changing technological environment, acquired professional competencies must be continuously improved, and self-learning is essential;
- The program’s instructors are highly qualified maritime engineering and electrical engineering specialists, mariners, and researchers whose academic activities are directly related to the program’s focus and subjects taught;
- Significant practical experience is gained through internships at ship repair and construction companies, as well as on various types of vessels;
- There is a vast network of academic exchange partners, offering opportunities for partial studies at European universities, and internships can be completed on ships operated by national and international shipping companies in various regions.
Study Environment
Description of Degree Programme
| 1 semestras | Kreditai (ECTS) |
|---|---|
| Taikomoji matematika | 4 |
| Inžinerijos mokslų pagrindai | 4 |
| Informacinės technologijos | 4 |
| Mechaninės inžinerinės sistemos | 8 |
| Medžiagų inžinerija | 3 |
| Termodinamika | 3 |
| Hidraulika | 2 |
| Mokomoji šaltkalvystės ir remonto praktika | 6 |
| 2 semestras | Kreditai (ECTS) |
|---|---|
| Mokomoji šaltkalvystės ir remonto praktika | 6 |
| Taikomoji chemija | 3 |
| Elektrotechnika ir elektriniai matavimai | 6 |
| Matematiniai inžinerijos pagrindai | 3 |
| Inžinerinė ir kompiuterinė grafika | 4 |
| Jūrinė anglų kalba | 3 |
| Filosofija ir etika/ Sociologija/ Politikos mokslų pagrindai/ Europos kultūra/ Valdymo psichologija/ Tarpkultūrinė komunikacija/ Jūrų uostų ir laivybos raida | 2 |
| Asmeninio išgyvenimo technika, priešgaisrinė sauga ir gaisrų gesinimas, pirmosios pagalbos suteikimo pagrindai, asmeninis saugumas ir socialinė atsakomybė (STCW, A-VI/1), laivo saugumo užtikrinimas (STCW A-VI/6-2) | 3 |
| 3 semestras | Kreditai (ECTS) |
|---|---|
| Galios elektronikos pagrindai | 3 |
| Laivų pagalbinių mechanizmų inžinerinės sistemos | 4 |
| Laivų elektros ir galios perdavimo įranga | 3 |
| Darbo, civilinė ir aplinkos sauga | 5 |
| Jūrų elektros inžinierijos ir elektros sistemų terminija ir kalbos praktika | 3 |
| Laivų elektros įrangos techninės priežiūros ir remonto profesinės veiklos praktika | 12 |
| 4 semestras | Kreditai (ECTS) |
|---|---|
| Laivų elektronika ir automatika | 5 |
| Laivų elektros technologijos | 6 |
| Laivų jėgainių automatinės sistemos | 3 |
| Profesinės veiklos jūrinio plaukiojimo praktika/ Profesinės veiklos pakrančių plaukiojimo praktika/ Profesinės veiklos 12 plaukiojimo praktika kariniuose laivuose/ Laivų elektros įrangos techninio aptarnavimo profesinės veiklos praktika | 12 |
| Jūrinė anglų kalba (Navigacinio tiltelio ir laivo radijo ryšio sistemų bei elektros medžiagų ir technologijų terminija ir kalbos praktika) | 4 |
| 5 semestras | Kreditai (ECTS) |
|---|---|
| Profesinės kalbos kultūra ir akademinis raštingumas | 3 |
| Inžinerinių tyrimų metodologija | 3 |
| Jūrų inžinerijos projektų valdymas | 2 |
| Specialusis gaisrų gesinimas (STCW A-VI/3) ir pirmoji medicininė pagalba (STCW A-VI/4) | 3 |
| Atsinaujinantys energijos šaltiniai | 3 |
| Profesinės veiklos jūrinio plaukiojimo praktika/ Profesinės veiklos pakrančių plaukiojimo praktika/ Profesinės veiklos plaukiojimo praktika kariniuose laivuose/ Laivų elektros įrangos techninio aptarnavimo profesinės veiklos praktika | 12 |
| Jūrinė anglų kalba (Automatikos ir valdymo sistemų bei techninės priežiūros terminologija ir kalbos praktika) | 5 |
| 6 semestras | Kreditai (ECTS) |
|---|---|
| Laivų navigacijos įranga ir ryšio sistemos | 2 |
| Laivų kompiuteriniai tinklai | 4 |
| Baigiamoji profesinės veiklos jūrinio plaukiojimo praktika/ Baigiamoji profesinės veiklos pakrančių plaukiojimo praktika/ Baigiamoji profesinės veiklos plaukiojimo praktika kariniuose laivuose/ Baigiamoji laivų elektros įrangos techninio aptarnavimo profesinės veiklos praktika | 24 |
| 7 semestras | Kreditai (ECTS) |
|---|---|
| Laivų elektros įrangos eksploatavimas | 5 |
| Jūrų teisė | 3 |
| Laivų aukštos įtampos sistemos ir įranga | 3 |
| Darbas su gelbėjimosi valtimis bei plaustais ir gelbėjimo valtimis (išskyrus greitaeiges gelbėjimo valtis) (STCW A-VI/2-1) | 2 |
| Laivų energetinių įrenginių elektroninis treniruoklis ir laivo mašinų skyriaus resursų valdymas (STCW A-III/1-3, A-III/6, A-VIII/2) | 4 |
| Baigiamasis kvalifikacinis egzaminas | 2 |
| Profesinio bakalauro baigiamasis darbas | 10 |
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