Nuclear Engineering (Study Abroad) MEng Hons

Program Overview

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Lancaster University's Nuclear Engineering MEng Hons program combines creativity and ingenuity to develop advanced design and implementation skills. Through a year abroad, students gain global perspectives and specialize in nuclear engineering. The program emphasizes hands-on learning, research excellence, and industry partnerships, preparing graduates for successful careers in the nuclear field.

Program Outline

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Nuclear Engineering (Study Abroad) MEng Hons (H823) - Lancaster University: A Comprehensive Extraction

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Degree Overview:

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Overview:

This Master's program focuses on creativity and ingenuity to develop your design and implementation skills to an advanced level, preparing you for the chosen career in the nuclear field.

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Objectives:

The program aims to equip students with the skills and knowledge to design, build, and operate equipment and processes that benefit humanity. It emphasizes hands-on learning through laboratory-based sessions and project work.

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Program Description:

• The program begins with a common first year, introducing key features of engineering and equipping students with a well-rounded skill set.
• In the second year, students spend a year studying at a partner university in Europe, the United States of America, or Australia.
This broadens their horizons, fosters personal growth, and offers a new perspective on the discipline of engineering and its educational methods.
• Upon returning to Lancaster in year three, students join their specialist program, focusing on their chosen discipline and developing their core engineering skills.
• An optional year in industry allows students to gain valuable experience and enhance their employability.
• The third year enables students to apply their skills in an individual project, enhancing their research and design skills further.
They also gain specialist knowledge, develop an interdisciplinary approach, and learn to apply engineering principles to analyze key processes.
• The fourth year is guided by research excellence in nuclear instrumentation; nuclear decommissioning; and chemical processes; as well as partnerships with industry leaders.
Students undertake a group project to experience a prolonged, live project that requires a multidisciplinary approach.
• The program is accredited by the Institution of Engineering and Technology (IET) and the Institution of Mechanical Engineers (IMechE), meeting the academic requirements for registration as a Chartered Engineer.

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Outline:

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Year 1:

• Fundamentals of Engineering Applications: This module introduces fundamental applications of engineering science to build components, structures, and systems functionality across all engineering disciplines.
• Fundamentals of Engineering Science: This module introduces concepts associated with the fundamentals of engineering science relevant to chemical, mechanical, nuclear, and electrical/electronic systems.
• Numerical and Analytical Methods in Engineering: This module introduces key numerical and analytical concepts relevant to the engineering disciplines.

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Year 2:

• Study Abroad: Students study at a partner university, specializing in nuclear engineering modules and other relevant areas.

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Year 3:

• Computational Fluid Dynamics: This module introduces students to the foundations of computational fluid dynamics (CFD), including finite difference and finite volume methods, numerical solution of partial differential equations, and von Neumann stability analysis.
• Engineering Materials: This module addresses the physical behaviors of a wide range of engineering materials by considering underpinning scientific concepts affecting resistance to failure, including fracture, fatigue, creep, and corrosion.
• Individual MEng Project: Students complete an individual project, responsible for research, management, and design/practical elements.
• Integrated Circuit Engineering: This module provides an introduction to integrated circuit engineering and integrated circuits, including key methods for their design, fabrication, and testing.
• Nuclear Instrumentation: This module introduces nuclear instrumentation applications, including data analysis and interpretation, detection and measurement of energy, count level, and dose.
• Nuclear Medicine: This module explores the effect of radiation on human tissue, focusing on external beam radiotherapy and internal radiotherapeutic methods.

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Year 4:

• Design and Modelling of Systems: This module introduces the concept of systems and system design, providing insights into functional decomposition, functional modelling, and creative thinking tools.
• Group Project: Students experience live projects over a significant period, working in multidisciplinary groups.
• Industry-linked Group Projects: Students participate in a company-based problem-solving or design project and gain insights into specific technological problems.
• Intelligent System Control: This module introduces students to the design and application of intelligent control systems, with a focus on modern algorithmic, computer-aided design methods.
• Nuclear Fusion Engineering: This module introduces fundamental concepts underpinning nuclear fusion and the engineering challenges associated with its implementation as a power source.

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Assessment:

Assessment methods vary depending on the specific module, but may include examinations, coursework, projects, presentations, and laboratory work.

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Teaching:

The program is delivered through a combination of lectures, tutorials, laboratory sessions, and project work. The teaching staff is composed of experts in their respective fields, with a strong commitment to research and teaching excellence.

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Careers:

The program prepares students for a variety of careers in the nuclear industry, including:

• Nuclear Safety Engineer
• Nuclear Engineer
• Nuclear Research Scientist
• Nuclear Decommissioning Engineer
• Nuclear Graduate Scheme
• CE Safety Engineer
• Global Manufacturing Trainee
• Operations Graduate
• Molecular Imaging Application Specialist

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Other:

• The program is well-paid, with a median starting salary of £29,000 (HESA Graduate Outcomes Survey 2023).
• Lancaster University offers a range of support services to help students succeed, including academic advising, career guidance, and mental health support.
• The program has a strong reputation and is accredited by the Institution of Engineering and Technology (IET) and the Institution of Mechanical Engineers (IMechE).

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Additional Notes:

• This extraction is based on the information available in the provided context.
• The program is currently accepting applications for the 2025/2026 academic year.
• For more information, please visit the Lancaster University website.

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Tuition Fees and Payment Information:

Home International £9,250 £28,675