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 'MA010T%' AND srs_ipp.ipp_iuse = 'Y' AND UCS.mcr_iuse = 'Y' AND (srs_ipp.ipp_stat = 'P' OR srs_ipp.ipp_code != 'MA010T31UVD') ORDER BY ipp_iref DESC, ipp_code
The University of Wolverhampton

BEng (Hons) Chemical Engineering with Foundation Year

Why choose this course?

Modern society relies on the work of chemical engineers, they help to manage resources, protect the environment and control health and safety procedures, while developing the processes that make the products we desire or depend on. This chemical engineering course provides for a deep understanding of chemical processes and also the products resulting from chemical reactions.

On the course, you will learn how raw materials can be transformed into useful products in a safe and cost effective way. For example petrol, plastics and synthetic fibres such as polyester and nylon, all come from oil. Chemical engineers understand how to alter the chemical, biochemical or physical state of a substance, to create a range of products as diverse as cosmetics and fuels.

The course covers energy resource exploitation and management, industrial practices and processes, chemical thermodynamics and reaction engineering, process design and control, health and safety and protection of the environment, and petroleum and chemical refining.

Watch our video below featuring staff and students from Chemical Engineering here at the University of Wolverhampton.

What happens on the course?

Chemical Engineering at Wolverhampton is industry focused and aims to prepare students to tackle challenges facing chemical and allied industries in the 21st century.

There are modules in the programme reviewing specialist issues of sustainability and life cycle engineering of products and processes addressed holistically and concurrently. The programme will also teach Materials Engineering and Manufacturing Technology and Processes providing opportunity to address topics on resource efficiency management, material utilisation principle, energy management and waste minimisation which are topical in the present day Process and Manufacturing Engineering environments.

1st Year

Principles of Chemical Engineering

Engineering Mathematics

Principles of Physical Chemistry

Engineering Materials

Thermodynamics and Fluids

Unit Operations and Separation Processes

2nd Year

Fluid Mechanics and Multiphase Systems

Process Operations and Separation Processes

Environmental Sustainability and Life Cycle Engineering

Reaction Engineering

Mathematical Modelling

3rd Year

Safety and Engineering Practice

Petroleum Chemistry and Refining

Design Project

Process Design and Control

Specialist subject option:

Food Engineering

Manufacturing Processes and Technology

Energy - Conventional and Renewable

Structured Products and Soft Solids

Computional Fluid Dynamics

Oil and Gas Management

Opportunites for team building activities.

Why Wolverhampton?

Under the direction of the IChemE, The University of Wolverhampton established a new chemical engineering degree programme in 2015. The new course is set within the Science base of subjects at the Wolverhampton’s City Campus and offers exceptional resources and support for would be chemical, petroleum and process engineers.

The establishment of the course, one of only a handful of new courses in the whole of the UK, was a real coup for Wolverhampton and helps form a real powerhouse of chemical engineering education in the West Midlands. The new department is embedded within the School of Engineering, which is currently receiving an injection of £10m for new facilities and laboratories. However, Chemical Engineering also sits along side other new courses in Chemistry and Physics and has strong teaching and research links with the Mathematics department. These strongly allied subjects now deliver a coordinated scheme of Physical Sciences education to the region and the country. To help the delivery of our STEM courses we have just completed new Chemical Engineering Design Centre, along side brand new specialist laboratories. The design centre offers Chemical and Petroleum Engineering students a dedicated space with industry standard software, technology and support. More developments to extend the specialist laboratories are planned for 2016/17. In addition to the facilities in Engineering Chemical, and our site in Telford, our students are also taught in the new £25m Rosalind Franklin building which is a regional centre of excellence in science teaching and research.

Our aim is for 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, we are constantly building and maintaining links with regional, national and international employers and regularly have speakers from prominent industries and other academic partners. Indeed, several highly experienced industrial experts hold honorary and visiting positions with us; and regularly share their experience and knowledge with our students.

Wolverhampton offers a vibrant, up to date learning environment, which is supported by the community, the University plus a dedicated and enthusiastic staff who want to see our students succeed. This along with the latest polls of salary scales for petroleum and chemical engineering make Wolverhampton the place to be. “Engineers took seven of the top ten spots in NACE’s April survey, which is based on data from 400,000 US employers. Petroleum engineers earned the most with an average starting salary of £60,323. Chemical engineering graduates were ranked third, after computer engineers, with a healthy starting salary of £43,612.”

We believe in supporting our students whilst they learn. This means we offer:

  • All core textbooks for first and second year are available electronically and in the university learning centres
  • Software licences for industry standard software are available across the campus
  • All Personal Protective Equipment equipment provided free of charge
  • Free UK field trips
  • For every student, up to four years of student membership/associate entry for the IChemE is paid for by the department

Career path

Chemical engineers are employed across a huge variety of sectors including:

Chemicals and allied products, Pharmaceuticals, Energy, Water , Food and drink, Materials, Mining and minerals, Oil and gas, Process plant and equipment, Biotechnology, Business and management Consultancy.A career in chemical or biochemical engineering includes: Excellent job prospects especially in the Oil and Gas sector, Competitive starting salaries in the region of £28,000/y, High earning potential throughout your career

Chemical Engineering

What skills will you gain?

  • Lectures which are research and case study based.
  • Tutorials which focus understanding gained at lectures and to underpin understanding by making it relevant to contextual / industrial situations.
  • Seminars to enable exchange of ideas and knowledge with peers and with tutors.
  • Workshops which develop practical skills such as information and data-handling.

Design / Research projects enhancing practical research skills, problem-solving abilities and competencies to analyse, evaluate and present research data.

Who accredits this course?

An IChemE accredited BEng will provide partial fulfilment of the necessary academic requirements for Chartered Engineer status set by the Engineering Council UK for registration as a Chartered Engineer (CEng) status. Chartered Engineers enjoy excellent prospects, enhanced employability and high salaries.

Chemical Engineering at Wolverhampton is still classed as new and has not yet had any students graduate. Chemical engineering degrees from Wolverhampton have not been put forward to the Institution of Chemical Engineers (IChemE) for accreditation as this cannot be undertaken until the first cohort of students has graduated. It is intended that accreditation by IChemE will be sought in 2018. If the degree programmes meet IChemE accreditation criteria then the qualifications will be accredited at either Bachelor or Masters level to include all cohort entry dates so far. For further information please contact the department.

Student membership of IChemE

For every student up to four years of student membership/associate entry for the IChemE is paid for by the department. So if you're studying chemical engineering at undergraduate level you can join online and start enjoying the benefits of student membership today. http://www.ichemeoncampus.org/student-membership.aspx

Entry requirements

2018 Entry

  • Applicants will be expected to hold GCSE English, Mathematics and a Technology or Science based subject at grade D/3 or above (or equivalent)
  • A Level minimum of EE
  • BTEC QCF Extended Diploma grade PPP, BTEC QCF Diploma grade PP
  • BTEC QCF Subsidiary Diploma grade P
  • 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.

Course fees and finance

2018/9 Home/EU International
Full time £6,165 £11,700
Part time # £2,835

Degrees which include foundation year will be charged at the lower foundation rate for the first year. Subsequent years will be charged at the University Standard Degree rate.

# Undergraduate part-time fees for 50% rate of study

Contact us

Telephone

01902 32 22 22

Email

enquiries@wlv.ac.uk

Online

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