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Solent University (Southampton)

Renewable Energy Engineering

UCAS Code: HH80

Bachelor of Engineering (with Honours) - BEng (Hon)

Entry requirements


UCAS Tariff

112

From a minimum 2 A Levels with a minimum of 2 relevant subjects with Maths studied at AS Level or higher. We welcome applicants from a diverse range of backgrounds. Applicants who are not in possession of the minimum entry requirements but are able to demonstrate enthusiasm and motivation will be considered on an individual basis and may be admitted subject to satisfactory interview / and or portfolio. Please contact for further details.

100%
Applicants receiving offers

About this course


Course option

3years

Full-time | 2018

Subject

Chemical, process and energy engineering

Energy is now a very valuable resource. Shifts in world attitudes to the use of fossil fuels driven by global warming and climate change has meant a change in emphasis to renewable sources of energy. In conjunction, there is a far greater effort to measure the energy efficiency of systems, products and buildings to ensure that operational costs are minimised and both environmental and financial savings are maximised.Clean power generation is only part of the challenge - the engineering industry is facing an additional challenge to maximise the efficient use of energy whilst reducing reliance on fossil fuels. Government strategy and climate change action have meant that energy is more valued than ever.This course aims to provide well-trained graduates with the skills and knowledge to work towards addressing these issues. Using a mix of classroom and specialist laboratory facilities, this course will give you a strong grounding in science and engineering theory, with an emphasis on renewable power generation methods, environmental impact, and the efficient use of energy in engineering and technology.The first year is shared with all of our engineering degrees, giving you the opportunity to develop sound underpinning science and engineering skills in mathematics, mechanics, electrics, manufacturing, CAD and design processes, and professional skills. The second and third years of the course enable you to explore concepts in renewable energy, distribution of energy, and the efficient use of energy in engineering systems. This is complemented by additional work on the lightweight structures used in renewable energy technology and vehicle technology.

Modules

Core units:*Applied Mathematics*CAD and the Design Process*Mechanical Principles*Manufacturing Principles*Electrical Principles*Professional and Study Skills*Year two:*Core units*Applied Mathematics for Engineering*Automation and Control*Environment and Environmental Impact*Wave and Tidal Energy Systems*Solar and Wind Energy System*Year three:*Core units:*Power Storage and Distribution*Composite and Floating Structures*Eco-Vehicle Dynamics*Project

Tuition fees

Select where you currently live to see what you'll pay:

Channel Islands
£9,250
per year
England
£9,250
per year
EU
£9,250
per year
International
£12,500
per year
Northern Ireland
£9,250
per year
Scotland
£9,250
per year
Wales
£9,250
per year

Extra funding

Southampton Solent University offers a range of bursaries and scholarships that provide financial assistance or waive fees for tuition or accommodation. Each bursary or scholarship has specific eligibility criteria. Check out our bursaries and scholarships pages to find out more.

The Uni


Course location:

Solent University (Southampton)

Department:

Maritime, Science and Engineering School

TEF rating:

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What students say


We've crunched the numbers to see if overall student satisfaction here is high, medium or low compared to students studying this subject(s) at other universities.

72%
med
Chemical, process and energy engineering

How do students rate their degree experience?

The stats below relate to the general subject area/s at this university, not this specific course. We show this where there isn’t enough data about the course, or where this is the most detailed info available to us.

Engineering

Teaching and learning

89%
Staff make the subject interesting
97%
Staff are good at explaining things
87%
Ideas and concepts are explored in-depth
90%
Opportunities to apply what I've learned

Assessment and feedback

Feedback on work has been timely
Feedback on work has been helpful
Staff are contactable when needed
Good advice available when making study choices

Resources and organisation

92%
Library resources
92%
IT resources
92%
Course specific equipment and facilities
43%
Course is well organised and has run smoothly

Student voice

Staff value students' opinions
Feel part of a community on my course

Who studies this subject and how do they get on?

80%
UK students
20%
International students
92%
Male students
8%
Female students
73%
2:1 or above
3%
Drop out rate

Most popular A-Levels studied (and grade achieved)

D
C
D

After graduation


The stats in this section relate to the general subject area/s at this university – not this specific course. We show this where there isn't enough data about the course, or where this is the most detailed info available to us.

Engineering

What are graduates doing after six months?

This is what graduates told us they were doing (and earning), shortly after completing their course. We've crunched the numbers to show you if these immediate prospects are high, medium or low, compared to those studying this subject/s at other universities.

£22,000
low
Average annual salary
91%
low
Employed or in further education
98%
high
Employed in a role where degree was essential or beneficial

Top job areas of graduates

25%
Engineering professionals
18%
Artistic, literary and media occupations
10%
Sales assistants and retail cashiers
What do graduate employment figures really tell you?

Want to make good money from the word go? This is the degree for you! The UK has had a shortage of chemical engineers for a while now so starting salaries are very good. In fact, across the UK, only doctors and dentists bettered the average starting salary for chemical engineering graduates, with an average starting salary of around £28,000. Key sectors for chemical engineers last year included the petrochemicals, food, nuclear, pharmaceuticals, materials and consultancy industries. Their skills set also means that the finance industry likes graduates from these degrees, so there are options if you don't fancy engineering as a career. Most graduates take a longer course that leads to an MEng — which is what you need to take if you want to be a Chartered Engineer. Chemical engineers are also more likely than other engineers to take doctorates and go into research roles, so if you want to take an engineering subject but fancy a research job, this might be a good subject to take.

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This is what the university has told Ucas about the criteria they expect applicants to satisfy; some may be compulsory, others may be preferable.

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This is the percentage of applicants to this course who received an offer last year, through Ucas.

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This is what the university has told Ucas about the course. Use it to get a quick idea about what makes it unique compared to similar courses, elsewhere.

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Course location and department:

This is what the university has told Ucas about the course. Use it to get a quick idea about what makes it unique compared to similar courses, elsewhere.

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Teaching Excellence Framework (TEF):

We've received this information from the Department for Education, via Ucas. This is how the university as a whole has been rated for its quality of teaching: gold silver or bronze. Note, not all universities have taken part in the TEF.

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This information comes from the National Student Survey, an annual student survey of final-year students. You can use this to see how satisfied students studying this subject area at this university, are (not the individual course).

We calculate a mean rating of all responses to indicate whether this is high, medium or low compared to the same subject area at other universities.

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This information is from the Higher Education Statistics Agency (HESA).

You can use this to get an idea of who you might share a lecture with and how they progressed in this subject, here. It's also worth comparing typical A-level subjects and grades students achieved with the current course entry requirements; similarities or differences here could indicate how flexible (or not) a university might be.

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Post-six month graduation stats:

This is from the Destinations of Leavers from Higher Education Survey, based on responses from graduates who studied the same subject area here.

It offers a snapshot of what grads went on to do six months later, what they were earning on average, and whether they felt their degree helped them obtain a 'graduate role'. We calculate a mean rating to indicate if this is high, medium or low compared to other universities.

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Graduate field commentary:

The Higher Education Careers Services Unit have provided some further context for all graduates in this subject area, including details that numbers alone might not show

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The Longitudinal Educational Outcomes dataset combines HRMC earnings data with student records from the Higher Education Statistics Agency.

While there are lots of factors at play when it comes to your future earnings, use this as a rough timeline of what graduates in this subject area were earning on average one, three and five years later. Can you see a steady increase in salary, or did grads need some experience under their belt before seeing a nice bump up in their pay packet?

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