SELECT UCS.mcr_ucrs UcasCode,srs_ipo.ipo_seqn,srs_ipp.ipp_code,srs_ipp.ipp_iref,srs_ipp.ipp_titl,srs_ippn.*,ins_dpt.dpt_name,ins_dpt.dpt_snam,men_xon.xon_newv,UCS.mcr_olbc,UCS.mcr_olb3,srs_ipo.ipo_begd,ins_lca.lca_name,srs_crs.crs_leng crs_leng,UCS.mcr_cgpc ApplyRoute,ins_moa.moa_name , ins_moa.moa_code,srs_ipp.ipp_iuse IPPUSE, UCS.mcr_iuse MCRUSE,UCS.mcr_schc, ins_cmp.cmp_name, ins_dpt.dpt_code, Case WHEN srs_ipo.ipo_iuse is null then 'Y' else srs_ipo.ipo_iuse end AS ipo_iuse, srs_crs.crs_uomc, srs_ipo.ipo_end2,srs_ipo.ipo_ayrc,UCS.MCR_RECR, srs_ipo.ipo_udf9, srs_ipp.ipp_prgc, CRS_UDFI, srs_ipp.ipp_subj, CASE WHEN (SELECT TOP 1 mcr_uvst FROM srs_mcr WHERE mcr_code LIKE Substring(srs_ipp.ipp_code, 1, 6) + '%' AND mcr_uvst = 'Y' AND mcr_iuse = 'Y' AND mcr_aesc = 'U') = 'Y' THEN 'True' ELSE 'False' END AS Clearing, CASE WHEN (SELECT TOP 1 crs_udf4 FROM srs_crs WHERE crs_code LIKE Substring(srs_ipp.ipp_code, 1, 6) + '%' AND crs_udf4 IS NOT NULL AND crs_iuse = 'Y' AND crs_schc = 'PWLV') IS NOT NULL THEN 'True' ELSE 'False' END AS PGLoans FROM srs_ipp INNER JOIN srs_ippn on srs_ippn.ippn_ippc = srs_ipp.ipp_code LEFT OUTER JOIN srs_mcr UCS On UCS.mcr_code = srs_ipp.ipp_code LEFT OUTER JOIN ins_dpt On ins_dpt.dpt_code = srs_ipp.ipp_dptc LEFT OUTER JOIN ins_prg On ins_prg.prg_code = srs_ipp.ipp_prgc LEFT OUTER JOIN srs_ipo On srs_ipo.ipo_ippc = srs_ipp.ipp_code LEFT OUTER JOIN ins_lca ON srs_ipo.ipo_lcac = ins_lca.lca_code LEFT OUTER JOIN srs_crs ON srs_crs.crs_code = substring(srs_ipp.ipp_code,0,len(srs_ipp.ipp_code)) LEFT OUTER JOIN ins_moa On ins_moa.moa_code = UCS.mcr_moac LEFT OUTER JOIN srs_CBO ON (srs_CBO.cbo_crsc = srs_crs.crs_code And srs_cbo.cbo_ayrc = srs_ipo.ipo_ayrc and srs_cbo.cbo_blok = srs_ipo.ipo_blok AND srs_cbo.cbo_occl = srs_ipo.ipo_occl ) AND cbo_cmp1 IS NOT Null LEFT OUTER JOIN ins_cmp On ins_cmp.cmp_code = srs_CBO.cbo_cmp1 LEFT OUTER JOIN men_xon On men_xon.xon_oldv = ins_prg.prg_code WHERE srs_ipp.ipp_code LIKE 'MA005K%' AND srs_ipp.ipp_iuse = 'Y' AND UCS.mcr_iuse = 'Y' AND (srs_ipp.ipp_stat = 'P' OR srs_ipp.ipp_code != 'MA005K23UVU') ORDER BY ipp_iref DESC, ipp_code
The University of Wolverhampton

BEng (Hons) Automotive Engineering with Sandwich Placement

Why choose this course?

This course is for those who want to become design engineers in the Automotive industry, to undertake the challenges of modern vehicle design and work in industry as part of teams generating the next phase of road vehicles. As such the course consists of all the necessary elements to ensure its graduates are prepared for the various roles of the modern automotive engineer. Modern production technologies and conceptual design feature highly to promote an innovative design ethos, which will go towards fulfilling the increasingly regulated world of global vehicle design along with an understanding of legal requirements. Fuel efficiency is an area of increasing scrutiny in the consideration of new vehicles and can be achieved by a number of factors, including conceptual engine design, use of hybrid and renewable energies and the streamlining of vehicle aerodynamics, all of which feature heavily on this new bespoke course, designed to meet current and future needs.

What happens on the course?

All of our degrees have a common first year, allowing you to experience a range of subjects before deciding on the course you wish to follow. You will study Mathematics, and the underlying concepts of Electrical, Mechanical, Materials, and Production Engineering. You will undertake laboratory work; and utilise your new production knowledge to build and test a design.

In the second year, you will extend your knowledge of Automotive subjects including Control Systems, Thermodynamics and Fluids, Mechanics, Vibration and Stress Analysis. In addition, you will create design specifications, and become proficient in the use of a 3D CAD package. You will also study Engineering Management and learn the role and responsibilities of a professional engineer.

Following the second academic year, you are encouraged to undertake a placement year in industry, thereby improving your employment prospects and forming part of your record of professional development as an Incorporated or Chartered Engineer.

In your final year you will complete an individual project, extend your specialist automotive knowledge, and learn how to convert an idea into a commercial venture.

Why Wolverhampton?

Responding to the regional and national shortage of graduate qualified Engineers the University of Wolverhampton is currently investing over £10m in new Engineering facilities at its Telford Innovation Campus and City Campus in Wolverhampton.

New Engineering courses on offer from 2015 share a design that incorporates significant elements of problem and activity-based learning and live industrial project-work. The courses have embedded themes of creativity, employability, professional engineering, and sustainability and the environment. All of our courses are designed to meet the latest standards for accreditation as defined by the Engineering Council.

Students studying Engineering courses will have access to new specialist equipment and technology that is at the forefront of engineering developments. This includes a design and visualisation facility modeled on best-practice in industry, wind tunnels (including a formula-1 specification rolling road wind tunnel), engine test facilities, a composites laboratory, 3-d printing facilities, an electronics and telecommunications laboratory, a metrology laboratory and a materials testing laboratory.

Our aim is for our graduates to be ready for employment. We provide additional opportunities for students to gain employability skills, with employability workshops and awards as part of the course. In addition and to further develop employability skills, we offer ‘Club Activities’. These currently include the IMechE Formula Student Activity, the Human Powered Flight Club, the Flight Simulator Club and the Formula Renault 2l Racing Team Club. These are great fun, and the only conditions to entry are that you need to engage and demonstrate commitment.

All engineering courses are offered from the Telford Innovation Campus, located close to Telford town centre in rural Shropshire. Chemical Engineering is the exception to this, and this is offered at City Campus in Wolverhampton.

Career path

The combination of engineering skills, design capability, and management provides graduates of this course with a wide range of employment opportunities in technical environments across the world. Automotive Systems engineers may choose industrially based careers in research and development, test, systems, product development, performance and development engineering, automotive component, and design engineering. They go on to co-ordinate product, process and system design; and manage technical projects in a wide range of technical environments.

Graduates may also study for a taught postgraduate degree, MSc, or a research degree, MPhil/PhD, within the Department.

The transferable skills gained during the course, including: project management, group working, and analytical thinking, also enable a graduate to pursue careers in non-technical fields such as: law, accountancy, authoring, and computing.

What skills will you gain?

At the end of this course, the student will be able to:

· design and synthesise automotive systems engineering products, systems, and processes, and demonstrate an innovative approach to design realisation

· evaluate a range of solutions to engineering problems, drawn from a broad-based knowledge of engineering and technology specialities

· select and apply appropriate mathematical methods to solve problems in the analysis and synthesis of automotive systems

· contribute to teamwork effectively and ethically, addressing the prominent engineering, social, environmental, and commercial issues

· select and apply appropriate software packages for design, analysis, and synthesis applications and critically evaluate the results

Who accredits this course?

Because of re-validation of Engineering Programmes in 2015 we will be presenting all engineering programmes for accreditation from respective professional body in the 2017/18 academic year. Accreditation will be back dated for post 2015 enrolments.

Entry requirements

2018 Entry

  • A Level minmum of BB or CDD to include Maths and either a Technology or Science-based subject.
  • BTEC QCF Extended Diploma grade MMP, BTEC QCF Diploma grade DM.
  • Applicants will normally be expected to hold GCSE English, Maths and a technology or science-based subject at grade C or above (or equivalent)
  • If you've got other qualifications or relevant experience, please contact The Gateway for further advice before applying.
  • International entry requirements and application guidance can be found here

Other Requirements

Students must have studied a minimum of two years post GCSE level. However, it is expected that some applicants will be mature students with work experience, who wish to further their career development. These applicants will be processed through standard procedures, which may involve an interview as part of the process. Please see http://wlv.ac.uk/mature for further information.

Those who do not meet the entry requirements may be offered an alternative course.

Course fees and finance

2018/9 Home/EU International
Full time £9,250 £11,700

The University also offers a range of Bursaries and Scholarships in addition to other financial support packages

These fees are applicable for new entrants in 2018/9. If you have any queries regarding the fees listed please contact

These fees are for the current academic year only. Any subsequent years may be subject to an annual increase, usually in line with inflation.

Contact us

Telephone

01902 32 22 22

Email

enquiries@wlv.ac.uk

Online

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