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Sea Port Engineering

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Summary of the Profile

General Description:
Objective(s) of a study programme:
Educate technology science first level specialists in Sea engineering, Sea port engineering specialization or Marine transport logistics with enough mathematical and other physical and technological science, engineering design, logistics knowledge and capabilities.

Learning outcomes:
Knowledge and understanding:
• Knowledge and understanding of the scientific and mathematical principles of sea port engineering;
• A systematic understanding of the key aspects and concepts of sea port engineering;
• Coherent knowledge of sea port engineering including some at the forefront of the branch;
• Awareness of the wider multidisciplinary context of engineering;
• Knowledge about materials and elements using in engineering and its characteristics.

Engineering analysis:
• The ability to use mathematical and calculation experience, correct measurements and data presenting methods;
• The ability to evaluate engineering decisions from etnic, social, economics and safety aspects;
• The ability to apply port engineering knowledge and understanding to analyse engineering products, processes and methods;
• The ability to apply their knowledge and understanding to identify, formulate and solve sea port engineering problems using established methods;
• The ability to select and apply relevant analytic and modelling methods in sea port engineering.

Engineering design:
• The ability to use mechanical systems movement principe, stability and realibility principe for the technical facilities design, improvement and development;
• The ability to apply their knowledge and understanding to develop and realise designs related to sea ports, to meet defined and specified requirements;
• An understanding of design methodologies, and an ability to use them in sea port engineering;
• The ability to use ports infrastructure and superstructure elements, in development and design of transport and sea port systems.

Research:
• The abilities to use IT, basic program equipment, abilities to use numerical computer methods for the specific engineering methods, using computers data for the engineering tasks, management processes, computer graphics, and other computer functions;
• Workshop and laboratory skills, using standard reserch methods;
• The ability to design and conduct appropriate experiments, interpret the data and draw conclusions;
• The ability to conduct searches of literature, and to use data bases, manuals and other sources of information.

Engineering activity:
• The abilities to manage technological processes and correct exploitation of technical means;
• The ability to select and use appropriate equipment, tools and methods; understanding of applicable techniques and methods, and of their limitations;
• The ability to combine theory and practice to solve sea port engineering problems;
• An awareness of the non-technical (envirnomental, ethical, commercial) implications of sea port engineering practice.

Personal / transferable skills:
• The abilities of writing and oral communication, thw ability of clear and correct presentation of research results and conclusions for the different groups;
• Use diverse methods to communicate effectively with the engineering community and with society at large;
• Demonstrate awareness of the health, safety and legal issues and responsibilities of engineering practice, the impact of engineering solutions in a societal and environmental context, ◦ and commit to professional ethics, responsibilities and norms of engineering practice;
• Demonstrate an awareness of project management and business practices, such as risk and change management, and understand their limitations;
• Recognise the need for, and have the ability to engage in independent, life-long learning;
• Function effectively as an individual and as a member of a team.

Activities of teaching and learning: –

Methods of assessment of learning achievements:

University applies cumulative assessment. Study results are evaluated through the interim settlement (test, individual work, laboratory work, etc.)
The final grade sums up interim settlement and final exam grades.

Framework:
Study subjects (modules), practical training:

Theoretical Mechanics; Materials Mechanics; Materials Engineering; Mathematics in Engineering; Mathematical Methods in Engineering; Computer aided Design Programs; Physics; Hydromechanics; Theoretical Mechanics; Theory of Machines Mechanisms and Machine Elements; Electrical Engineering and Electronics; Ship and Port Equipment and Technical Operation; Port Organization and Logistics Bases; Ports and Waterways Geography; Probability Theory and Applied Statistics; Port Engineering Basics; Basics of Green Shipping; Maritime transport development basics; Liquefied natural gas (LNG) transport and handling; Business and engineering project management; Complex Logistical Challenges; Economy; Shipping port organization; Port Superstructure Bases with a Course Project; Human Safety; Freight Forwarding, Forwarding and Shipping Agency; Freight Transportation, Freight Forwarding and Shipping Agency; Specialty Language; Cargo Types and Flow; Transport System; Maritime Transport Management and Quality Management Systems; Practice; Practice in Logistics Companies.



Specialisations:

Sea transport logistics

Optional courses:

The port terminal planning; Special terminals in organization and work; Navigation Basics and Port Navigation Systems; Non Standard Logistics Situation Management.


Distinctive features of a study programme:

Study program Seaport Engineering is unique, perspective and popular program of study. After the seaport engineering program, engineer guarantee the place in the modern working and emerging powers in the port of Klaipeda, which is considered the western region of human well-being, as well as an opportunity to work as an engineer in various maritime industries, port administrations. You can engage in stevedoring, shipping agency, freight forwarding activities or work from a technical consultant, industry or department managers, project managers in commercial companies.

Access to professional activity or further study:
Access to professional activity:

Educate sea ports engineering or with specialization Marine transport logistics - bachelor of engineering sciences qualification persons could work as engineers in different maritime industry companies (Port Administrations, Stevedoring, ships agency, cargo forwarding, logistics and other companies, constructors design companies, technical advisers, industry companies managers, project managers).

Access to further study:

The graduates of the Bachelor‘s degree study programme of Shipping and Port Engineering can continue in Master‘s degree studies in the field of Technological Sciences.