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Sustainable Energy Engineering

H224 MEng (Hons) 4 years

Overview

The projected increase in global energy demand, led by developing and emerging economies, underscores the need for new supplies of affordable sustainable energy. This future energy need is perhaps the greatest single challenge of the Century. The programme will concentrate on training you for employment in the energy sector. Examples of recent projects include an assessment of biodiesel as a road vehicle fuel and the development of rooftop wind turbines. Graduates may go on to work as engineers advising on sustainability issues, for example, in energy companies or the government.

Structure

You will start with specialist modules from the first year, while gaining a solid foundation in engineering by studying core engineering modules. In the 3rd year you will choose modules from a broad range of Sustainable Energy Engineering course options (see Programme Structure below).  You can follow the links for details for each module, and also visit the SEMS website for information on projects and facilities.

Please note the modules are correct at the time of reading; however we constantly review and update our modules, meaning that they may be subject to change in the future.

Year 1

 

Semester A:DEN4001 (4)
Engineering Materials in Design
DEN4101 (4)
Mechanics of Fluids 1
DEN4121 (4)
Mathematical Techniques for Engineers
DEN4006 (4)
Energy Conversion Systems
Semester B:MAT4002 (4)
Engineering Design Methods
DEN4102 (4)
Engineering Mechanics: Statics
DEN4108 (4)
Engineering Mechanics: Dynamics
DEN107 (4)
Thermodynamics 1

 

Year 2

 

Semester A:DEN5100 (5)
Management of Design
DEN5102 (5)
Solid Mechanics
DEN5200 (5)
Control Systems Analysis and Design
DEN5208 (5)
Heat Transfer and Fluids Mechanics 1
Semester B:DEN5101 (5)
Design for Manufacturing
DEN5102 (5)
Solid Mechanics
DEN5109 (5)
Engineering Instrumentation
DEN5107 (5)
Energy Conversion Analysis

 

Year 3

 

Semester A:DEN318 (6)
Individual Project
DEN331 (6)
Computer Aided Engineering for Solids and Fluids

DEN320 (6)
Environmental Engineering
 

or
DEN338 (6)
Fluid Mechanics and Heat Transfer

or
MAT507 (6)
Environmental Properties of Materials

DEN320 (6)
Environmental Engineering

or
DEN338 (6)
Fluid Mechanics and Heat Transfer

or
MAT507 (6)
Environmental Properties of Materials

Semester B:DEN318 (6)
Individual Project
MAT402 (5/6)
Operational and Financial Management

MAT602 (6)
Materials Selection in Design

or
DEN326 (6)
Combustion in Automotive Engines

or
DEN306 (6)
Aircraft Propulsion

MAT602 (6)
Materials Selection in Design

or
DEN326 (6)
Combustion in Automotive Engines

or
DEN306 (6)
Aircraft Propulsion

 

Year 4

 

Semester A:DEN616 (6)
Engineering Industrial Experience
DEN616 (6)
Engineering Industrial Experience
DEN616 (6)
Engineering Industrial Experience
DEN616 (6)
Engineering Industrial Experience
Semester B:DEN616 (6)
Engineering Industrial Experience
DEN616 (6)
Engineering Industrial Experience
DEN616 (6)
Engineering Industrial Experience
DEN616 (6)
Engineering Industrial Experience

 

Year 5

 

Semester A:MAT7400 (7)
Research and Design Team Project
 
 MAT7400 (7)
Research and Design Team Project

DEN401 (7)
Computational Engineering

or
DEN409 (7)
Advanced Fluid Mechanics and Heat Transfer

or
DEN438 (7)
Renewable Energy Sources

or
DEN420 (7)
Advanced Environmental Engineering

DEN401 (7)
Computational Engineering

or
DEN409 (7)
Advanced Fluid Mechanics and Heat Transfer

or
DEN438 (7)
Renewable Energy Sources

or
DEN420 (7)
Advanced Environmental Engineering

Semester B: MAT7400 (7)
Research and Design Team Project
 MAT7400 (7)
Research and Design Team Project

MAT427 (7)
Renewable Energy Materials

or
DEN403 (7)
Computational Fluid Dynamics

or
DEN426 (7)
Advanced Combustion in Reciprocating Engines

or
DEN427 (7)
Advanced Gas Turbines

or
DEN433 (7)
Energy Economics and Management of Sustainable energy

MAT427 (7)
Renewable Energy Materials

or
DEN403 (7)
Computational Fluid Dynamics

or
DEN426 (7)
Advanced Combustion in Reciprocating Engines

or
DEN427 (7)
Advanced Gas Turbines

or
DEN433 (7)
Energy Economics and Management of Sustainable energy

 

Notes

The numbers in brackets indicate the academic level of each module, where a typical first year module is delivered at a level 4, whilst a master's module is delivered at level 7.

From 2017 we are introducing the QMUL Model to all our degrees.  For further information on this initiative please contact the admissions team at sems-ugadmissions@qmul.ac.uk

Entry requirements

Entry Requirements for 2017 Entry and General Admission Entry Requirements can be found below.

2018 Entry requirements

A-LevelGrades AAA at A-Level. This must include A-Level Mathematics, and Physics or Chemistry. Excludes General Studies and Critical Thinking.
IBInternational Baccalaureate Diploma with a minimum of 36 points overall, including 6,6,5 from three Higher Level subjects. This must include Mathematics at Higher Level, and either Physics or Chemistry, also at Higher Level.
BTEC See our detailed subject and grade requirements
Access HEWe consider applications from students with the Access to Higher Education Diploma in a Physics and Mathematics based discipline. Entry will normally be to the BEng or BSc. The minimum academic requirement is to achieve 60 credits overall, with 45 credits at Level 3, of which 33 credits must be at Distinction and 12 credits at Merit or higher. Applications are considered on a case by case basis. Before a decision is made, applicants will be invited to a Maths test at Queen Mary, normally in April. This Maths test will assess whether an applicants ability in Maths is at the required level. Applicants will be contacted shortly after the test with a decision on their application.
GCSEMinimum five GCSE passes including English at grade C or 4.
Contextualised admissions We consider every application on its individual merits and will take into consideration your individual educational experiences and context. More information on how academic schools and programmes use this information as part of the admissions process, can be found on our contextualised admissions pages.

2017 Entry requirements

A-levels
Typical grades required: AAA, must include Maths and, either Physics or Chemistry. The third subject can be any subject excluding General Studies and Critical Thinking.

International Baccalaureate
Subjects and grades required: 36 points or above overall, with 3 subjects at Higher level with 6,6,6 points (including Maths and, either Physics or Chemistry).

Further info
To find out the entry requirements for other qualifications, please visit the School of Engineering and Materials Science website.

 

General Admissions Entry Requirements

English Language Proficiency

All applicants to QMUL must show they meet a minimum academic English language standard for admission and to be successful on the course, to the indicated levels for the area of study. See our guidance on English Language requirements for all degree programmes.

Vocational and Other Qualifications

The College accepts a wide range of qualifications such as Access and Foundation programmes, vocational awards, Irish Leaving Certificate, Scottish Highers and other Baccalaureates. You are advised to contact the Admissions team (admissions@qmul.ac.uk) before making an application so that we can give individual advice.

Admission is based on academic merit and on the proven ability of the applicant to achieve success on their chosen programme of study. Every application to Queen Mary is considered on its individual merits with personal statement and reference taken into consideration.

Combined Qualifications

If you are taking a combination of qualifications at Level 3, we will consider your academic profile and may make offers on a case-by-case basis. You are advised to contact the Admissions team (admissions@qmul.ac.uk) before making an application so that we can give individual advice.

Advanced Entry

Subject to the policy of the programme, it may be possible for students to join undergraduate degree programmes at the beginning of the second year of a three or four year degree programme or, sometimes, the beginning of the third year of a four year programme. Please note, not all schools will consider advanced entry. You are advised to contact the Admissions team (admissions@qmul.ac.uk) before making an application for individual advice.

If you are applying for advanced entry on the basis of a post A-Level qualification, such as the BTEC HND, you should apply via UCAS in the usual way. If you wish to transfer your degree studies from another UK higher education institution, you will be considered on the basis of your original A-Level or equivalent qualifications, current syllabus, academic references and results.

We typically expect you to have achieved a 2.1 standard on your current programme and have already met the standard equivalent first year entry requirements. Applications must be submitted via UCAS.

Non-UK students

European and International Applicants

Our students come from over 162 countries and we accept a wide range of European and International Qualifications for entry, in addition to A-Levels, the International Baccalaureate and BTEC qualifications. Please see our International Admissions webpages for further details of our academic requirements, and information regarding how we assess the equivalence of your qualification.

Applicants will typically be expected to be taking academic subjects relevant to the programme of study. You are advised to review the A-Level and IB requirements for an indication of these subjects. If you are at all unclear, the Admissions team (admissions@qmul.ac.uk) is happy to advise you further.

Further Information

For any other enquiries directly relating to our entry requirements, please contact the Undergraduate Admissions Office directly.
Telephone: +44 (0)20 7882 5511
Email: admissions@qmul.ac.uk

See our information and guidance on how to apply.

Learning and teaching

As a student in the School of Engineering and Materials Science (SEMS) you will be taught through a combination of lectures, problem-solving classes, laboratory practicals, problem-based learning and a variety of coursework. 
In the third year you will undertake a major project: an individual research project based around the in the current internationally-recognised research taking place in SEMS. This project will be based in the labs and gives you the opportunity to apply the theory you will have learnt in the first two years of study while taking advantage of the state-of-the-art facilities within SEMS.

Industrial experience:
All our programmes are available with an option to spend a year in industry as part of your course (normally after the second year). The year will significantly develop your communication, problem solving and team working skills. It will also give you invaluable experience to draw on when applying for positions after graduation. The School exploits its strong links with industry to help students find appropriate placements. Our Industrial Liaison Forum also encourages employers to sponsor and support students and to provide real design case studies to engage you throughout the course. Recent case studies were delivered by Bridgestone, DePuy, Apatech, Artis, Corus, BAE, DSTL and Rolls Royce. Find out more on the School of Engineering and Materials website.

Assessment:
All our degree programmes are structured with eight modules per year, split over two semesters. Some modules, such as the research and design projects, count for two or four modules. In the third and fourth years, you select from a range of module options allowing you to tailor your degree to specific areas of interest within your specialist degree programme, working in the SEMS laboratory Facilities. Assessment is continuous throughout your degree, with written reports, projects, presentations, group work and exams (exams take place in the summer).

Fees and finance

Tuition fees for Home and EU students

2017 entry
Full-time £9,250

Tuition fees for International students

2017 entry
Full-time £17,450

You can either take out a Tuition Fee Loan (see Funding section below) to pay your fees or, if you are paying them yourself, you can pay in instalments.

Tuition fees for a year abroad or placement year on a full time undergraduate course will be a proportion of the full fee for the year in which you commence your time abroad or placement.

For information on field trip and other course related costs which are not included in your tuition fee, please contact the relevant Department/School.

See more general information about fees.

Tel: +44 (0)20 7882 7676
email: fees@qmul.ac.uk

Funding

Queen Mary has a substantial package of scholarships and bursaries which will benefit around 50 per cent of our undergraduate student body.

Scholarships and Bursaries available at Queen Mary for Home/EU Students

There are a number of scholarships and bursaries available each year for home students. Visit our Bursaries and Scholarships page for more information.

Visit our Advice and Counselling website for more information about financial support.

Scholarships available at Queen Mary for International Students

There are a number of Scholarships available each year for International Students including bursaries and scholarships in a range of subject areas.

Find out more about international scholarships.

Some International students may also be eligible for a fee reduction.

Loans and Grants available to help with tuition fees and living costs

Student Finance England administers all grant and loans for your studies if you normally live in England.

If you live in WalesScotland or Northern Ireland you have an equivalent Student Finance department for your region.

Through Student Finance England, you can apply for (figures relate to programmes starting from September 2016):

  • A Tuition Fee Loan of up to £9,000 to pay all or part of your fees
  • A Maintenance Loan of up to £10,702 to help pay your living costs like rent, food and travel
  • Extra grants if you have a disability or you have children or an adult dependant
  • You might get a grant to cover some travel expenses if you normally live in England but study away from home. If you’re a medical or dental student you might also qualify for help with the costs of attending clinical placements in the UK.

Visit Student Finance Information to find out more about:

  • How to apply for student finance
  • What eligibility rules apply, including if you already have a degree or previous higher education study
  • What the income thresholds are and how much you might personally get for each element of Student Finance
  • What to do if you have problems getting your Student Finance

Other financial help on offer at Queen Mary

We offer one to one specialist support on all financial and welfare issues through our Advice and Counselling Service, which you can access as soon as you have applied for a place at Queen Mary.

Our Advice and Counselling Service also has lots of Student Advice Guides on all aspects of finance including:

  • Additional sources of funding
  • Planning your budget and cutting costs
  • Part-time and vacation work
  • Money for lone parents

For more information visit the Advice and Counselling service website, or call +44 (0)20 7882 8717.

Graduate Employment

Graduates from Queen Mary’s School of Engineering and Materials Science go on to work in a wide variety of careers. Some apply their degree knowledge directly, entering careers such as aerospace engineering, manufacturing or hi-tech industries, whilst others transfer skills gained during study into areas such as consultancy, IT, or finance.

Overall employment prospects for SEMS graduates are extremely good. The national 2015 destination of leavers survey confirmed that our Engineering graduates have a strong earning power, with a mean salary of £25,990.

The broad range of skills gained, coupled with multiple opportunities for extra-curricular activities and work experience, has enabled graduates from this school to move into careers such as:

  • Renewables Consultant, OST Energy
  • Project Engineer, Norconsult
  • Graduate Design Engineer, Dyson
  • Engineer, Jones Stroud Insulations Ltd
  • IT Consultant, Accenture
  • Graduate Engineer, Veolia Environmental Services
  • Fuel Cell Technician, AFC Energy
  • Solar Heating Engineer, Sustain Solar

Throughout the course, students have access to an annual QM Careers and Enterprise Centre programme, to prepare them for internships and graduate level work. This includes employer led workshops on job applications and interviews as well as over 70 employer events to facilitate networks and help students to explore their options.

Recent careers events in the School of Engineering and Materials Science include a large employer and alumni networking forum and a weekly timetabled careers slot in which large and small employers provide information, advice and skills training. Last year over 100 companies and alumni came to speak to Queen Mary Engineering students, including Transport for London, Rolls Royce, BAA, EADS Astrium, Bose, Microsoft, Siemens, De Puy and Land Rover.

Opportunities for work experience are substantial given Queen Mary’s location between Canary Wharf, the City and the Olympic Village. Students are encouraged to build their work experience throughout their period of study. Opportunities can be found through QProjects, a local work experience scheme, QRecruit, which advertises internships and temporary work, Experience Works, a part time work fair, and volunteering with QMSU Provide. There are also over 1400 vacancies to browse on the QM JobOnline vacancy site.

Queen Mary’s extensive campus also provides over 1200 on-campus job and volunteer opportunities ranging from E-learning Assistant to Gym Instructor and from Society President to Student Mentor.

Read more about our careers programmes and range of work experience opportunities on the QM Careers and Enterprise Centre pages.

Profiles

Sandya Abrar
Sustainable Energy Engineering


“The best thing about the programme is its goal: learning how to champion sustainable development through the implementation of engineering tools and knowledge. Last year we had to make a poster presentation on an existing source of renewable energy. My group was allocated tidal power, and I very much enjoyed doing the research. It was a challenging project, in the sense that we were given complete freedom to structure things in the way that we wanted to.

“There is plenty to do on campus and the Students’ Union is always organising great events. For example every night there is a themed party and on Sunday evening there is usually a movie with free popcorn. I really enjoy going to the Drapers’ Bar after lectures to chill with my friends, and play pool and table football. Once a week I join the ballroom dance society for a lesson. It is a great way to meet other students.”

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