Master of Science in Sustainable Energy Technologies

at University of Southampton - Boldrewood Innovation Campus United Kingdom

Learn how to take a product from initial concept, to design and manufacture. Our 4-year master's in Mechanical Engineering with industry placement will put you on the path to becoming a chartered engineer. You'll learn about mechanical design, structures and materials, then select specialist topics to study. Project work throughout the degree provides the opportunity to apply your design skills to real-world problems.

This integrated master's lets you select a specialist theme pathway for years 3 and 4, or stay on in this generalised Mechanical Engineering theme. This general theme lets you take optional modules from the specialised courses in years 3 and 4.

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 and in year 4 you'll take part in a group design project. These projects are often linked to current research or topics that have practical relevance to industry.

As part of this course you can:

• Use our design workshops and studios
• Develop your design and computing skills
• Showcase your work in our annual Engineering Design Show
• Apply your knowledge to your choice of specialist areas, from automobiles to mechatronics
• 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 30HH for the Industrial Placement Year option.

This Sustainable Energy Technologies MSc offers an introduction to current and modern energy technologies for sustainable power generation. You’ll gain expertise and practical skills in areas of energy research including photovoltaics, fuel cells, energy storage and batteries, combustion, electrical power systems, and wind, wave and tidal energy. 

Sustainable energy technologies need to meet a range of criteria across economic, social and environmental metrics. 

This master’s course will give you an understanding of sustainable energy systems, resources and usage. You’ll learn to design and assess the performance of fuel cells and photovoltaic systems, wind power and hybrid propulsion systems. You’ll also learn how thermo-fluid engineering processes can be used for the production of low-carbon energy. 

You'll also look at other renewable technologies and have the option to undertake a range of specialist modules, covering subjects such as waste resource management to bioenergy. 

Under the guidance of world-class experts, you’ll have the chance to put theoretical and practical skills to the test as you undertake a piece of independent research culminating in a dissertation.

Gain a Masters-level knowledge of acoustics, sound and vibration and use it to make the world sound better. This acoustical engineering master's will provide fundamental engineering knowledge and a specialist understanding of acoustics. You'll study at the Institute of Sound and Vibration Research, a leading centre for Acoustical Engineering.

MEng Acoustical Engineering 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 4-year integrated master's course includes advanced Acoustical Engineering modules. You'll also take a masters-level group design project and apply your engineering knowledge to a design problem.

This course includes practical and lab work throughout. 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.

In your fourth year, you'll take part in a group design project, many of which are industry-led.

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

• Anechoic and reverberation chambers
• An aeroacoustic wind tunnel
• Listening room
• 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.

This 4-year chemical engineering degree fully meets the educational requirements for chartered engineer status. Demand is high for chemical engineering graduates. You’ll have excellent job prospects in sectors such as food, energy, pharmaceuticals and biochemical, and you’ll be one step ahead in your career as a chartered engineer. The course focuses on sustainable chemical engineering. You'll graduate with the skills to go straight into the workplace and help the world transition to a more sustainable future.

Chemical engineering is a multi-disciplinary branch of engineering that focuses on using chemicals and materials to design sustainable processes and giving them practical applications in the real world. This course has a particular emphasis on employability, sustainability and design.

The skills you’ll gain include:

• Computational methods
• Reaction engineering
• Thermofluids
• Commercialising chemistry

On this Chemical Engineering MEng degree you’ll be able to:

• Take part in a challenging group design project
• Complete an optional extra year on a paid industrial placement
• Learn real-world skills with our dedicated computer suite and simulation software
• Use our virtual control room to gain experience working in a chemical plant
• Select from a range of specialist modules

As part of this degree you’ll complete a chemical engineering advanced research project. You’ll be able to draw on our expertise in low-carbon technology, fine chemicals, green energy and water/wastewater engineering to complete your research.

You’ll work in our brand new, bespoke chemical engineering laboratories, which are part of our £12m chemistry building renovation. You’ll also have access to our engineering facilities, which consist of over 10,000m² of specialist workshops, laboratories and testing services.

This is a new course. The course is currently undergoing the accreditation process for the Institution of Chemical Engineers (IChemE). Once accreditation is granted the course will qualify as meeting the educational requirements for chartered engineer status.

Discover how to help the world develop resilience to increasing urbanisation, climate change and natural disasters, on this MSc Civil Engineering.

The course is ideal if you’re a civil engineering graduate interested in boosting your career prospects. You'll learn the skills to solve problems in building design, water supply, infrastructure, structural and bridge engineering, geotechnical engineering, and earthquake engineering.

You may also have an opportunity to complete a research project whilst undertaking an industrial placement.

You’ll gain a sound understanding of civil engineering design and applications through core and specialist modules covering:

• Coastal and maritime engineering
• Hydraulics
• The environment
• Infrastructure
• Transport
• Management

Depending on your module choices you can develop different skills. For example, during our structural engineering modules you'll learn how to use industry standard finite element analysis software. This is important for the design of structures and foundations in other modules.

If you live in the UK or EU you'll have the option to take the MSc with an 11 month industrial placement. You'll carry out the latest applied research on real projects, whilst working with major civil engineering companies and research centres.

This degree 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. Learn more about accreditation on the Joint Board of Moderators website.

On this Yacht and High-performance Craft engineering MSc degree you’ll specialise in the analysis, design and performance of yachts, small craft and high-performance vessels. You’ll also gain an understanding of the fixed and offshore structures that help them to function. You'll graduate with the specialist skills in maritime engineering science to design and analyse marine craft and structures.

This master's degree covers the core subjects and in-depth knowledge of maritime engineering science for both design and analysis of marine craft and structures within the marine environment.

If you have a first degree in engineering, science or maths and are looking for a career in the maritime sector and yacht design degree to study, this could be the course for you. We'll also consider you if you have relevant experience.  You don’t need specialist knowledge of the subject, as we’ll teach you the fundamentals of ship science.

Specialist yacht engineering modules on this MSc programme, will give you a chance to explore the performance and design of a variety of high-performance small craft including: 

• Planing craft 
• Sailing yachts 
• Hydrofoils 
• Hovercraft 

You'll discover how to calculate a vessel's performance as you learn about common types of full-scale trials. You’ll gain key skills in areas like force balance, drag breakdowns, resistance approximations and stability. 

Through design-oriented work, you’ll find out how the basic mechanics in each case are applied – first through simplified scenarios and then through more complex engineering design.

Learn about the design and manufacture of aircraft, avionics, race cars and rockets, and spend a semester studying overseas. MEng Aeronautics and Astronautics / Semester Abroad examines many aspects of aerospace engineering, including the design and manufacture of fast-moving aircraft and spacecraft, before specialising in more focused topics in the last 2 years.

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

You’ll study the principles of aerospace engineering and in year 3 you’ll study aerospace engineering abroad in either semester one or two. You’ll enrich your skills and experience a new culture at one of our partner universities in:

• France
• Italy
• Sweden
• Netherlands
• USA

In year 3 you will also complete an individual research project and in year 4 you’ll participate in a group design project.

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

• the largest wind tunnel in any UK university
• dedicated student design studios and workshops
• state-of-the-art space propulsion facilities
• jet laboratory with supersonic ramjet, turbojet and rocket engine
• Boeing flight simulator
• 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

As well as the semester abroad, you can also take this course with an additional year-long, paid placement. Apply with UCAS code H4HH for the Industrial Placement Year option.

MEng Aeronautics and Astronautics / Aerodynamics will give you the knowledge and skills to analyse and control aerodynamic behaviour. You'll learn how to design vehicles, wings and propulsion systems. The aerodynamics degree prepares you for a career in the aerospace or Formula 1 industries.

Aeronautics and Astronautics looks at the science, engineering and manufacture of aircraft and spacecraft. You'll learn how they operate within our atmosphere and in space. On this aerodynamics course, you'll focus on vehicles, wings and propulsion systems.

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

• The largest wind tunnel at any UK university. Formula 1 teams and Olympic athletes have used our wind tunnel for high-performance testing
• Dedicated student design studios and workshops
• Jet laboratory with supersonic ramjet, turbojet and rocket engine
• Boeing flight simulator
• Professional manufacturing centre

As part of this course you can:

• Take part in practical design modules in every year of your degree
• Design, build and test aircraft, spacecraft and their wider components
• Showcase your work in our annual Engineering Design Show
• Take part in a flight-testing course, on board a flying laboratory aircraft

Our links with employers will enhance your career prospects. This is a BAE Systems preferred course and we have close links with many other key employers.

You can take this course with an additional year-long, paid placement. Apply with UCAS code HH41 for the Industrial Placement Year option.

Explore the specialist engineering and aerospace systems that keep planes in the air. Take advanced modules that specialise in wing design, propulsion and manufacturing. Southampton has offered aerospace engineering degrees since the 1930s, and many of our graduates go on to successful careers in the space industry, aerospace or defence sector.

Along with the core topics of mechanical engineering, this degree focuses on:

• aircraft aerodynamics
• propulsion
• avionics
• structural design

You'll use our design workshops and studios, and gain practical experience in aircraft and spacecraft engineering, for a variety of projects.

As part of this course you can:

• study management and design to improve your employability
• showcase your work in our annual Engineering Design Show
• visit industry and research establishments for a real-world view of possible careers

You can take this course with an additional year-long, paid placement. Apply with UCAS code H3H4 for the Industrial Placement Year option.

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

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.