Master of Science in Sustainable Energy Technologies

at University of Southampton - Boldrewood Innovation Campus United Kingdom

Learn how to make the world sound better, with a specialist knowledge of acoustics, vibration and how they affect us. This acoustical engineering degree specialises in sound and our response to it. You'll study at the Institute of Sound and Vibration Research, a leading centre for Acoustical Engineering.

This acoustical engineering course looks at how acoustics - the science of sound and vibration - is applied in technology. It has many applications, including:

• Design of cars
• 3D-audio systems
• Designing concert halls
• Reducing aircraft noise
• Using ultrasound to fight antimicrobial resistance

This UK acoustic engineering degree includes practical work throughout, including lab work. Our projects will allow you to design, build and test components and systems with enhanced acoustic properties. You'll gain the confidence to creatively solve engineering problems.

You'll have access to our world-class acoustic and engineering facilities, which include:

• Dedicated design studios and workshops
• Anechoic and reverberation chambers
• An aeroacoustic wind tunnel
• A listening room
• A virtual acoustics laboratory
• A professional manufacturing centre

The industrial placement year will further develop your vital professional skills and knowledge, and help you become a professional acoustical engineer after you graduate.

Learn how to apply your mechanical engineering skill in a range of fields, from orthopaedics to automobile systems. Explore real-world problems with practical project work. You'll learn about mechanics, structures and materials, and study design and computing - all vital for a career in this industry.

Studying Mechanical Engineering involves learning how to take a product from initial concept, to design and manufacture.

You'll cover the essential principles of engineering, and learn about:

• Modelling and computing
• Systems design
• Law
• Management

In your third year you'll complete an individual research project using many of the concepts you’ve learnt during the course. Projects range from system and product design to the mechanical testing of composite materials.

As part of this course you can:

• Use our design workshops and studios
• Showcase your work in our annual Engineering Design Show
• Develop your design and computing skills
• Apply your mechanical engineering skills to your choice of specialist areas, from robotic systems to sustainable energy and power generation
• Go on site visits to experience engineering in practice

We're a designated university for the Defence Technical Undergraduate Scheme (DTUS).

You can take this course with an additional year-long, paid placement. Apply with UCAS code H30P for the Industrial Placement Year option.

On this Marine Engineering and Autonomy MSc degree you'll learn about component and systems engineering for ships. You’ll also gain an understanding of the fixed and offshore structures that help them to function. Learn the skills you need to become a specialist in the marine sector.

On this UK master’s course you’ll gain an advanced understanding of the fundamental principles, methods and applications of maritime engineering science.

This pathway focuses on the analysis and specification of marine engineering and autonomous systems used on board ships and other marine structures. You’ll study topics like electrical theory, thermodynamics, and engine and machine tribology. 
 
You’ll explore the marine engineering systems found on board merchant and naval vessels and their importance to ship design. This includes performance characteristics of diesel engines, steam and gas turbines and electric propulsion. The course covers the dynamic response of the main shaft and associated components. 
 
An introduction to auxiliary systems includes: 

• Heating
• Ventilation and air-conditioning
• Refrigeration
• The main fuel system

You’ll also learn about propeller-engine matching and a selection of appropriate machinery configurations. 

Your optional study topics include a chance to study the principles of photovoltaics, fuel cells and batteries, where you’ll learn about: 

• Electrochemical routes to energy conversion
• The relative merits of batteries, fuel cells and redox flow cells
• Solar radiation as an energy source
• Solar cell operation and manufacture
• Design and operation of a photovoltaic system 

Throughout your studies, you’ll learn how to solve engineering problems by taking account of social, technical, economic and environmental constraints. 

Help the world adapt to urbanisation, climate change and natural disasters with a master’s degree in civil engineering.

This 2-year integrated course is ideal if you didn't graduate in civil engineering, but have maths and physics skills. You'll spend a year learning the basics of civil engineering before progressing to the main MSc course for your second year.

If you're an EU or UK student you'll have the chance to carry out your research project on an industrial placement.

You’ll spend your first year studying key topics and improving your knowledge to prepare for your second year, when you’ll join the full-time MSc Civil Engineering course.

Throughout the course you’ll study:

• Fundamental principles, methods, analysis and synthesis in civil engineering design and applications
• Specialist modules in engineering fields such as: coastal, environmental, infrastructure, transport and engineering management
• Information and communication technology relevant to civil engineering, as well as management practices, health and safety issues, risk assessment and regulatory frameworks
• The role and professional responsibilities of engineers in society

You’ll complete a research project to apply the knowledge and transferable skills you have developed on the degree. If you live in the UK or EU, you have the option to take the MSc with an 11-month industrial placement. This is an opportunity to carry out applied research on real projects, while working with major civil engineering companies and research centres.

This civil engineering master's is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng), for candidates who have already acquired a partial CEng accredited undergraduate first degree. See www.jbm.org.uk for further information.

Learn how to create smarter machines, from autonomous robots to self-driving cars. Using advanced mechanical, electrical and control engineering, you'll explore a range of innovative products and systems. The combined skills you'll learn will be highly sought-after within the engineering and manufacturing sectors.

Mechatronics is the combination of mechanics, electrical and control systems. We find it in devices such as:

• Autonomous robots
• Self-driving cars
• Complex construction equipment

This 4-year integrated master's degree provides the core topics you'll need to master mechanical engineering. It then gives you the advanced skills to be able integrate electrical systems and mechanical devices.

As part of this course you can:

• Gain an in-depth understanding of sensors, instrumentation and signal processing for structural design
• Take a work placement to boost your academic performance and prepare for your career
• Explore the growing area of automation and robotics
• Use our design workshops and studios
• Showcase your work in our annual Engineering Design Show
• Go on site visits to experience engineering in practice

You can take this course with an additional, year-long, paid placement. Apply with UCAS code H3H2 for the Industrial Placement Year option.

We're a designated university for the Defence Technical Undergraduate Scheme (DTUS).

Learn about the materials used in aircraft and spacecraft, why they’re chosen, how they behave and why they sometimes fail. You’ll study the design and manufacture of fast-moving aircraft and spacecraft, then specialise in their materials, structures and analysis. MEng Aeronautics and Astronautics / Materials and Structures prepares you for a career in engineering design or further research.

Aeronautics and Astronautics looks at the science, engineering and manufacture of aircraft and spacecraft. On our aeronautical engineering courses you'll learn how they operate within our atmosphere and in space.

You’ll study the principles of aerospace engineering, then take more advanced modules in materials, construction and testing to learn about aeronautical and manufacturing engineering.

In year 3 you will do an individual research project. In year 4 you’ll take part in a group design project.

You’ll get hands-on experience in our extensive facilities, which include:

• Dedicated student design studios and workshops
• The largest wind tunnel in any UK university
• New testing and structures research laboratory, part of the £48m National Infrastructure Laboratory
• Jet laboratory with supersonic ramjet, turbojet and rocket engine
• Professional manufacturing centre

As part of this course you can:

• Showcase your work in our annual Engineering Design Show
• Attend site visits to experience engineering in practice
• Apply your engineering knowledge to solve a real-world problem

You can take this course with an additional year-long, paid placement. Apply with UCAS code H44H for the Industrial Placement Year option.

Combine your engineering skills with biology and medicine. Learn to design, develop and test medical devices and specialise in areas that interest you, like implants, biomaterials and orthopaedics. Biomedical engineering is a growing field, so this course will help you find a rewarding career as a chartered engineer.

The first 2 years of this specialist course follow the same content to our degree in Mechanical Engineering. In the third and fourth years, you can focus on topics such as the mechanics of the human body, and the human factors in engineering.

You'll use our design workshops and studios and gain practical experience on a variety of projects.

As part of this course you can:

• Use our range of engineering facilities
• Showcase your work in our annual Engineering Design Show
• Learn about the computational tools that help doctors analyse large amounts of patient data
• Put your skills into practice with an individual project and final year group design project
• Work with students from other engineering specialisms

You can take this course with an additional year-long, paid placement. Apply with UCAS code H316 for the Industrial Placement Year option.

We're a designated university for the Defence Technical Undergraduate Scheme (DTUS).

Civil engineering is all around us, from buildings and road planning, to water supply and coastal defence. This BEng Civil Engineering course provides a solid grounding in civil engineering design and application. We'll give you the skills to design and build creative solutions to real-world challenges. You'll develop the skills needed to become a successful engineer.

On this course you’ll learn essential principles, such as:

• Mechanics
• Structures
• Materials and fluids
• Geotechnics
• Hydraulics
• Structural design

You’ll study construction management and the real-world applications of civil engineering. This covers topics such as risk management and health and safety.

You'll have access to our extensive facilities, including:

• National Infrastructure Laboratory
• Design studios
• Professional manufacturing centre
• Hydraulics and geotechnics labs
• Heavy structures facilities

Design is integral to our courses, and we offer opportunities for laboratory sessions and design projects. These are based on the requirements of a real site and a real client. Our Design Show blog has examples of our students’ design work.

As part of this course you can:

• Apply analytical techniques and problem-solving skills to engineering problems
• Develop technical design skills, such as computer-aided design (CAD), model-making, and computer programming
• Take part in the Constructionarium challenge, where teams build scaled-down versions of famous structures
• Showcase your work in our annual Engineering Design Show

You can take this course with an additional year-long, paid placement. Apply with UCAS code H20P for the Industrial Placement Year option.

Our MSc Aerodynamics and Computation degree focuses on numerical methods and the physics and computation modelling of turbulence. It will enhance your knowledge of flow physics and your ability to use state-of-the art computational tools to improve industrial designs. This course is ideal if you’re an engineering, maths or science graduate with a strong background in fluid dynamics or aerodynamics.

This degree will prepare you for a career in industrial research and development, or ongoing postgraduate research.

You’ll take part in individual and group practical work as well as a critical research project, developing your expertise in aerodynamics.

You’ll examine current trends and challenges and engage in discussion and research on critical issues in the field. You'll also develop your ability to use experimental and advanced computational methods, such as particle image velocimetry (the measurement of the velocity of fluids), finite volume method and high-order finite difference methods

Research projects are often linked to our current research activities, or supported by industry or government funding bodies. Past students have undertaken research projects such as:

• The investigation of the installation effects on the noise of Dyson high-spend fans
• Aerodynamic load estimation from particle image velocimetry
• Morphing wings aircraft modelling

You’ll benefit from state-of-the-art facilities including high-performance computers and the RJ Mitchell Wind Tunnel, the largest university wind tunnel in the UK. Recent graduates have gone on to work at organisations such as Dyson and Rolls-Royce.

Study ocean energy and offshore engineering on this MSc course at the University of Southampton. This master’s degree will give you expert knowledge about the science behind natural energy resources. You’ll be well prepared for a range of offshore engineering specialisms, and will graduate with the skills to move into a career in the maritime sector.

On this pathway you’ll carry out structural and hydrodynamic analyses for offshore engineering of fixed and floating structures. You’ll focus on how to incorporate feasibility analysis of designs and probabilistic theory of the operating climate. 
 
Discover the role of thermo-fluid processes in technologies which use hydrocarbon fuels in a sustainable way. These include clean combustion, carbon capture and storage, and oil and gas recovery. 
 
You'll learn about the development of technology for these applications through physical insight and engineering methods covering: 

• Heat and mass transport 
• Chemically reacting flows 
• Multi-phase flows 
• Porous media flows 

We’ll teach you about turbines for low and high-head hydroelectric schemes and explain the role of marine energy in the offshore environment. This includes installation and system survivability. Through design and lab assignments, you’ll explore the physics and methods behind assessing device cost-effectiveness.

Optional modules give you the chance to further your understanding of wind, wave and tidal energy. You’ll study these natural resources and the practical methods for extracting cost-effective electrical and other energy conversions.