Degree
Master of Science in Technology
Study field
Technology
School
LUT School of Energy Systems
Credits
120 ECTS credits
Duration
2 years
Language
English
Form of study
Contact teaching
Location
Lappeenranta
When to apply
Regular admission
1 December 2022–18 January 2023
Rolling admission
1 November 2022–15 May 2023
Tuition fee
EUR 13 500/academic year (non EU/EEA students). Early bird and scholarships available.
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EUR-ACE.and ASIIN accredited programs
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EUR-ACE® and ASIIN are quality labels for engineering degree programmes at the Bachelor and Master level. The programmes were accredited in 2012 for the first time and the re-accreditation took place in 2017.

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This field has a continuous need for professionals to oversee nuclear power plants, including reactors, power conversion systems, and safety systems, taking into consideration and putting into practice advances in science and technology.

Nuclear power is a key component in the transition towards clean and feasible energy systems. Nuclear power has an excellent track record in providing abundant and dispatchable clean electricity for the electrification of the society. Nuclear heating and nuclear propulsion are emerging as new applications. In all applications, nuclear power must be safe.

At LUT, nuclear engineering research and education focus on three aspects: nuclear power plant engineering, nuclear safety, and reactors for new applications – including next generation technologies.

This Master's programme will give you a comprehensive understanding of how to utilise nuclear power safely. You will learn how to design nuclear reactors. Nuclear power plant engineering focuses on how different components in nuclear power plants work together, what specific requirements apply to components used in nuclear power plants, how to design for radiation protection, and how to consider the life cycle of power plants, including fuel and waste management.

Nuclear safety focuses on preventing accidents and on how a plant is operated safely if accidents happen. Research on next generation reactors focuses on small modular reactors.

Your studies will emphasise light water reactors, but you will also learn the basic principles of other reactor types, including fast reactors and heavy water and gas cooled reactors.

Study objectives

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In this programme, you will learn about nuclear reactors, nuclear power plants, nuclear energy and safety, and power plant processes relevant to power conversion and nuclear safety.

In addition, you will learn about energy economics, environmental impacts, savings and emissions.

In this Master's programme, you will acquire:

  • competence covering the design principles of nuclear reactors and nuclear power plants; you will also understand the nuclear fuel cycle from cradle to grave;
  • professional skills enabling you to utilise different numerical methods of reactor physics and thermal hydraulic safety analysis; you will learn about radiation protection and reliability engineering;
  • knowledge of applying and developing mathematical models to solve energy technology problems; you will be able to design energy technology related equipment, plants, processes and systems;
  • managerial skills to manage and organise both national and international projects.

Degree structure and studies

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The Master's Programme in Nuclear Engineering is a two-year programme. It leads to the degree of Master of Science in Technology, M.Sc. (Tech.), which is 120 ECTS credits.

The programme includes core, advanced specialisation, minor and elective studies.

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Career prospects

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To ensure the safe and reliable long-term operation of existing plants and to facilitate the construction of new plants in the future, there is a constant need for new professionals in nuclear engineering.

Our graduates have a clear understanding of what is required of safe nuclear power systems and how nuclear power is utilised to change the overall energy system towards cleaner processes.

 

 

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Graduates from our programme work in every field related to nuclear power: in power production, in research and development, for nuclear industry subcontractors, for regulatory authorities, for companies building nuclear power plants, and for companies providing fuel and waste management and other services to nuclear operators.

Graduates have versatile professional capabilities. They may work as project engineers, designers, analysts, developers, and managers, eventually even achieving top management positions. LUT graduates typically deal with power plant systems or components, company work processes, safety and regulations, etc.

 

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