|Study location||United Kingdom, Sheffield|
|Type||Bachelor courses, full-time|
|Nominal duration||4 years|
|Tuition fee||To be confirmed|
High school / secondary education (or higher)
good results in Mathematics
The entry qualification documents are accepted in the following languages: English.
Often you can get a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original.
IELTS: 6.5 (with a minimum of 6.0 in each band)
At least 1 reference(s) should be provided.
A motivation letter must be added to your application.
As low carbon electricity becomes increasingly important, there’s a growing demand for skilled nuclear engineers. This degree has been designed in consultation with the nuclear industry to meet this need.
You’ll gain a broad understanding of mechanical engineering by following the MEng Mechanical Engineering in the first two years. In years three and four, you’ll have the opportunity to specialise in nuclear engineering through taught modules and an individual and group design project on nuclear technology.
All our students also take the Global Engineering Challenge. Working with students from other engineering courses, you’ll have to find creative solutions to problems. The project looks at challenges faced by communities throughout the world. It’s designed to develop you as a professional engineer and get you thinking about sustainable solutions.
Essential Mathematical Skills & Techniques
Matter, Flow and Energy
Design and Manufacturing
Laboratory Skills for Mechanical Engineers
Materials Under Stress
Global Engineering Challenge Week
Engineering Techniques and Manufacturing Technology
Computational and Numerical Methods
Design of Engineering Components
Design of Structures, Machines and Systems
Dynamics of Structures and Machines
Finance and Law for Engineers
Mathematics for Engineering Modelling
Mechanics of Deformable Solids
Project Management and HRM for Engineers
Engineering – You’re Hired
Group Design Project
Advanced Engineering Thermodynamic Cycles
Experiments and Modelling
Integrated Design Skills
Integrity of Materials and Components
Nuclear Science, Engineering and Technology
Sensors, Actuators and Controllers
Advanced Mechanics of Solids
Computational Fluid Dynamics
Energy: Properties and Optimisation
Finite Element Techniques
Mathematics (Computational Methods)
Vibrations and Acoustics
Advanced Nuclear Systems
Nuclear Reactor Engineering
Nuclear Thermal Hydraulics and Heat Transfer
The Professional Responsibility of Engineers
Additive Manufacturing – Principles and Applications
Advanced Aero Propulsion
Advanced Finite Element Modelling
Advanced Fluid Mechanics
Experimental Stress Analysis
Introduction to Biomedical Imaging Sciences
Mechanical Engineering of Railways
Signal Processing and Instrumentation
Structural Vibration: Analysis and Practice
Technology Strategy and Business Planning
Tribology of Machine Elements
Our graduates have gone on to careers in manufacturing, transport, power generation or engineering consultancies.