Manufacturing Engineering - BEng (Hons)

  • UCAS Code: 1012
  • Level: Undergraduate
  • Starting: June 2019, September 2020
  • Study mode: Part Time (5 Years), Full Time (3 Years), Sandwich (4 Years), Part Time (5 years)
  • Location: City Centre

Manufacturing engineering is an essential feature in the vast arena that is manufacturing – an area that makes large contributions to the wealth of many countries throughout Europe and the rest of the world.

It is a fast-changing scene where the competition between industrial organisations is keen and lean: only those companies prepared to apply modern philosophies and technologies will survive. BEng (Hons) / MEng Manufacturing Engineering has been developed to provide you with a good knowledge of a range of manufacturing principles. 

This programme offers an exciting course of study that will prepare you  for the rapidly developing field of manufacturing engineering and its supporting operational systems. Upon your graduation you will have the intellectual, creative and personal qualities necessary for undertaking a leadership role and a depth of knowledge that will enable the application of new and emerging technologies to the solution of manufacturing problems.

This degree aims to develop engineers who can apply the principles of systems management, engineering and information technology to the solution of operational problems in industry and commerce. Manufacturing engineers are employed in a wide range of engineering, educational and commercial organisations. Graduates from the course are equipped to progress into positions of responsibility in relevant industry, or further programmes of specialised study or research.

There are many challenges facing manufacturing industry. Companies now strive for competitive advantage and have to evaluate their performance more effectively in order to make best possible use of all resources: Talented, innovative, ambitious engineers are needed to give manufacturing organisations a competitive edge.

Why Choose Us?

  • We have a proven track record in providing high quality part-time engineering courses, ensuring you gain the skills and knowledge industry needs.
  • The course has been designed with a focus on professional skills and assessed in an integrative manner, reflecting the application of a mixture of skills and knowledge such as is typically found in an industrial and commercial environment.

image for course pages

Meet or Beat scholarship for undergraduate students

Meet or beat our entry requirements and you could be eligible for an achievement scholarship worth £1,000.

*Terms and Conditions apply - some undergraduate courses are not eligible for this scheme. The £1,000 scholarship is made up of an £850 scholarship and £150 free credit to spend in an online shop.

Find out more 

This course is not open to International students
School of Engineering and the Built Environment

Discover the School of Engineering and the Built Environment

Visit our School site for more student work and extra information.

Visit the School website

We are members of:

WISE member logo2 WISE members inspire girls to choose maths, physics and computing.

Entry Requirements

We accept a range of qualifications, the most popular of which are detailed below.

Essential Requirements
Essential

In addition you must attain at least a grade C in A Level Mathematics or equivalent. Please see below for specific information about this requirement.

Typical Offers (UK students)

You must pass a HNC in an Engineering qualification to be accepted to year three entry. Some Foundation degrees in Engineering may also be accepted, as well as a HND in Engineering.

At the point of application, you must have GCSE at Grade 4 (C) or above in English Language and Mathematics. Equivalent qualifications will be accepted. Plus, you must have achieved or be completing one of the following:

UK Qualification
GCE A Level/ AS Level BBC at A Level or 112 UCAS tariff points from A Level with a minimum of 2 A Levels and including A Level Maths at grade C or above.
Access to Higher Education Diploma In Engineering - Pass overall with 60 credits, 45 at Level 3 and 15 at Level 2, including with a minimum of 12 credits at Merit or Distinction with 9 credits of these credits from Mathematics units and 3 credits in Science units.
BTEC National Diploma (12-units not including early years) D*D* or combined with other level 3 qualifications to achieve a minimum total of 112 UCAS points. A Distinction in Mathematics for Technicians unit or a Pass in Further Mathematics for Technicians unit.
BTEC Extended Diploma (18-units not including early years) DMM - 112 UCAS points. A Distinction in Mathematics for Technicians unit or a Pass in Further Mathematics for Technicians unit.
BTEC Subsidiary Diploma/ National Award (6-units not including early years) Combined with other level 3 qualifications to achieve a minimum total of 112 UCAS points. In addition, you will require a grade C in A Level Mathematics or equivalent such as a Distinction in Mathematics for Technicians unit or a Pass in Further Mathematics for Technicians unit.
International Baccalaureate Diploma

1. For students who complete the full IB Diploma: a total of 14 points or above from three Higher Level Subjects.

2. Students who do not complete the IB Diploma will be considered on the basis of their IB Certificates.

Students must have grade 5 in Maths (Higher Level)
AND
Students must have one subject from Group 4 (excluding Biology) at the Higher Level
AND
English Group A - Grade 4 or above,
OR
English Group B and Ab Initio - Grade 5

Irish Leaving Certificate 112 UCAS points
Scottish Higher/ Advanced Higher 112 UCAS points with Mathematics at Advanced Higher or equivalent. Grades BBC.
Welsh Baccalaureate (core plus options) Combined with other level 3 qualifications to achieve a minimum total of 112 UCAS points. Plus an A Level in Maths at grade C or above (or equivalent).
Other qualifications

Further guidance on tariff points can be found on the UCAS website.

  • UK/EU students
  • International students

Award: BEng (Hons)

Starting: Sep 2020

  • Mode
  • Duration
  • Fees
  • Study Year £9,250
  • Placement Year £1,650

Sandwich Fees

Our Sandwich courses incur a fee during the placement year, the costs for years when you attend the university for study, and the cost for the placement year are shown here.

  • Year 1 (60 credits) £4,700
  • Year 2 (60 credits) £4,700
  • Year 3 (80 credits) £6,200
  • Year 4 (80 credits) £6,200
  • Year 5 (80 credits) £6,200

Fees for Part-time students

This course can be studied on a Part-time study basis. The cost per year of study is based on credit requirements for that year as shown here.

Award: BEng (Hons)

Starting: Jun 2019

  • Mode
  • Duration
  • Fees
  • Year 1 (60 credits) £6,400
  • Year 2 (60 credits) £6,400
  • Year 3 (80 credits) £8,600
  • Year 4 (80 credits) £8,600
  • Year 5 (80 credits) £8,600

Fees for Part-time students

This course can be studied on a Part-time study basis. The cost per year of study is based on credit requirements for that year as shown here.

Award: BEng (Hons)

Starting: Sep 2020

  • Mode
  • Duration
  • Fees
  • Full Time
  • 3 Years
  • £12,800 per year

If you're unable to use the online form for any reason, you can complete our PDF application form and equal opportunities PDF form instead. The University reserves the right to increase fees in line with inflation based on the Retail Prices Index or to reflect changes in Government funding policies or changes agreed by Parliament up to a maximum of five per cent.

Personal statement

UK / EU students are required to submit a personal statement as part of their application for this course.*

The personal statement gives you a crucial opportunity to say why you’re applying and why the institution should accept you.

Here are the key areas you’ll need to address:

Course choice

Why does this course appeal? What areas are of particular interest?

Career plans

If you have a specific career in mind, say how your chosen course will help you pursue this goal.

Work experience

Mention any work that is relevant to your subject, highlighting the skills and experience gained.

School or college experience

Highlight skills gained at school/college, eg summer schools or mentoring activities.

Non-accredited skills or achievement

eg Duke of Edinburgh Award, Young Enterprise scheme.

You should also mention your future plans – if you’re planning to take a year out, don't forget to give your reasons. Talk about any subjects you’re studying that don’t have a formal assessment and any sponsorships or placements you’ve applied for. And don't be scared to add in details about your social, sports or leisure interests.

Get more information on writing personal statements.

*Non-EU students are not required to submit a personal statement when applying for this course.

Fees for part time students

If you study this course part-time or via distance learning, you will be charged on a pro-rata basis. This means your fee will be calculated per module.

Additional costs

There are no compulsory additional costs or charges associated with studying on this course. While you may choose to purchase personal copies of text books, all our key text books are available from our library or online (subject to normal library loan and online access arrangements). If your course includes a residential study session, the accommodation costs for this are already included in your course fee.

Based on the past experience of our students, you might find it helpful to set aside about £50 for each year of your studies for stationery and study materials. All our students are provided with 100 free pages of printing each year to a maximum total value of £15.

Accommodation and living costs

The cost of accommodation and other living costs are not included within your course fees. More information on the cost of accommodation can be found in our accommodation pages.

Part-time applications

Applications for part-time undergraduate courses should be made direct to the faculty.

Application form for part-time undergraduate courses 

Worried about personal statements?

Worried about personal statements?

If you've got no idea where to start or just want to check you're on the right track, we’ve got expert advice and real examples from our students to help you nail your personal statement. You can even download our ultimate personal statement guide for free.

Get personal statement advice

Loans and Grants

Financial Support

We offer further information on possible undergraduate financial support. This includes the type of loans, grants and scholarships available both from the government and from Birmingham City University.

Year One

In order to complete this programme a student must successfully complete all the following CORE modules (totalling 120 credits):

Engineering Principles 1
20 credits

The module aims to provide the underpinning knowledge and problem solving skills in engineering science to enable you to progress to the next module in the theme, Engineering Principles II, and then on to the second year of a range of engineering degrees.

As the practical aspects of engineering science are delivered in another theme of the common first year, the Engineering Principles modules concentrate on the theoretical aspects. The subject material will be delivered in two coherent streams one of which contains predominantly mechanical science and the other contains predominantly electrical science.

Mathematical Modelling 1
20 credits

Mathematics plays a key role in establishing and grounding the skills of an engineer, and the ability to communicate the ideas of engineering that are expected of an engineering graduates.

The primary aim of this module is to provide the fundamental mathematical knowledge and techniques needed in order to enable you to use and apply such mathematical techniques for the evaluation, analysis, modelling and solution of realistic engineering problems. Application of these data sets has to include their interpretation both to and from the mathematical language. In addition, this module will introduce students to mathematical modelling software package. This will be used to plot, annotate basic signals and write simple programs to compute mathematical problems.

This module will develop your ability to both work on and communicate engineering realities to a wider audience, at a professional standard.

Engineering Practice
20 credits

The module aims to provide the practical and professional skills to enable you to progress to the next module in the practical theme, Practical Skills II, and then on to the second year of an engineering degree. As the theoretical aspects of physical science and maths are delivered in other themes of the first year, the Practical Skills modules concentrate on the practical aspects.

The subject material will be delivered in three coherent streams one of which contains predominantly mechanical and electrical laboratory exercises, a second PC-based stream will include use of software to support project planning, communication and analysis and the third, a project space where you have the opportunity to integrate learning from across all elements of the semester.

Engineering Principles 2
20 credits

The module aims to provide the underpinning knowledge and problem solving skills in engineering science to enable you to progress to the second year of a wide range of engineering degrees.

As the practical aspects of engineering science are delivered in another theme of the common first year, the Engineering Principles modules concentrate on the theoretical aspects. The subject material will be delivered in two coherent streams one of which contains predominantly mechanical science and the other contains predominantly electrical science. Each stream will be delivered as a 1 hour lecture followed by a 1 hour small group tutorial giving 4 hours contact.

This module will interact with modules in the other two themes in the common first year in that it will rely on knowledge of mathematical techniques developed in the maths/professional skills theme and will provide theoretical underpinning for the experimental activities in the practical theme.

Mathematical Modelling 2
20 credits

This module will focus on introducing and building on well-established techniques for mathematically modelling dynamic systems (systems of interest for engineering) for contextualised engineering applications. The module will include an introduction to sophisticated signal analysis technique, Fourier series which is used to transform time-domain signals into their frequency spectra. The module is structured to include a mixture of lectures, tutorials and PC-based laboratories. The lectures will formally introduce material, in tutorials students will work through questions with tutor. The PC laboratories will involve using mathematical modelling software packages to implement mathematical operations.

Integrated Engineering Project
20 credits

The module aims to provide the practical and professional skills to enable you to progress on to the second year of an engineering degree. As the theoretical aspects of physical science and maths are delivered in other themes of the first year, the Practical Skills modules concentrate on the practical aspects.

The subject material will be delivered in three coherent streams one of which contains predominantly mechanical and electrical laboratory exercises, a second PC-based stream will include use of software to support project planning, design, communication and analysis and the third, a project space where you have the opportunity to integrate learning from across all elements of the semester

Year Two

In order to complete this programme a student must successfully complete all the following CORE modules (totalling 120 credits):

Operations Systems
20 credits

This module provides you with an understanding of the analysis, design and planning of manufacturing and other operating systems, and also an opportunity to investigate and select alternative strategies for the planning, scheduling and control of manufacturing and other operating systems.
The module also covers the quality systems, tools and techniques available to an organisation.

Quality Systems
20 credits

This module aims to provide you with an understanding of the tools and techniques used in quality systems. Topics include Process Improvement, Process Capability, Improvement Techniques, Quality by Design, Mapping Techniques, Quality Costs, TQM and Standards (ISO 9000 etc).

Design and Materials
20 credits

The module provides you with the opportunity to learn about design, sustainable development, teamwork and communication whilst contributing towards real international development projects.

You will also gain the ability to communicate design ideas and practical details, to evaluate and apply both tangible and subjective feedback, and to conceive, design, implement and operate practical solutions to design opportunities.

It is anticipated that the project vehicle for this module will be the Engineers without Borders Design for People Challenge.

Leading Engineering Endeavour
20 credits

An interdisciplinary module, you will work with students from all fields of engineering to develop skills in engineering leadership and experience creating a purposeful vision and delivering on that vision. This will set the professional skills for business in context by combining your technical course-specific knowledge with professional skills. It is proposed that the vehicle to deliver this will be the biomimicry global design challenge.

Design and Manufacture
20 credits

This module develops your research skills, idea generation techniques, and ability to create CAD models and manufactured components.

You will also gain the ability to communicate design ideas and practical details, to evaluate and apply both tangible and subjective feedback, and to conceive, design, implement and operate practical solutions to design opportunities.

Manufacturing Automation and Control
20 credits

This module aims to provide you with an understanding of and practical experience in the techniques used in controlling manufacturing applications. Topics include inspection, machine tool control, flexible and dedicated automation, and work holding systems, supply of power and services and health and safety issues.

Year Three

In order to complete this programme a student must successfully complete all the following CORE modules (totalling 120 credits):

Advanced Manufacturing
20 credits

If you are intending to work in a manufacturing environment you will need to develop an understanding of the techniques used in Computer Aided Manufacture of components and products. You will also require a working knowledge of the application of CAM and simulation technologies to form complete integrated systems for product manufacture. Topics include CAD, CAM and CNC data forms, simulation of machining operations, manufacturing cells, calibration, measurement and testing, 3-D System simulation; assembly systems; post processor configuration and application; advanced process simulation and product development.

Advanced Materials
20 credits

This module provides an opportunity for you to investigate the world of new materials and their industrial application through a combination of taught content and both practical and theoretical research project work. It is anticipated that guest lectures will provide industrial focus to this wide-ranging subject. It is proposed that a mini-conference will be held at the end of the module, offering opportunities for you to present your findings to academics, your peers, and industrial contacts.

Operations Management
20 credits

The module provides you with an understanding of the factors which control and constrain the performance of manufacturing and other operational systems including topics such as Risk Analysis and Decision Making Process, Material Flow Analysis, Maintenance and Replacement, Development of a Manufacturing Strategy.

Product Lifecycle Management
20 credits

Product Lifecycle Management (PLM) considers products and associated systems from concept to reuse, including design, manufacturing processes and routes, and production management, and places them in a global context which includes sustainability and climate change. This form of systems engineering is focused on meeting all requirements, primarily meeting customer needs, and coordinating the systems design process by involving all relevant disciplines. The core of PLM is in the creation and central management of all product data and the technology used to access this information and knowledge, and this module will help you become proficient in the philosophies, tools and techniques you will need to achieve this coherence. PLM as a discipline emerged from tools such as CAD, CAM and PDM, but can be viewed as the integration of these tools with methods, people and the processes through all stages of a product’s life. It is not just about equipment, material processing and software technology but is also a business strategy. This module has a strong emphasis on the environment and on sustainability of business.

Individual Honours Project
40 credits

The purpose of the module is to enable you to undertake a sustained, in-depth and research-informed project exploring an area that is of personal interest to you. In agreement with your supervisor, you will decide upon your topic which will take the form of a practical outcome (artefact) with accompanying contextual material. The main consideration when choosing your topic is that it must be aligned to the programme you are studying, and you should consider the relevance of this topic to your future academic or professional development.

At this level, you will be expected to work independently but you will receive additional one-to-one support from your supervisor, who will be familiar with your chosen topic area. As you progress on the module, extra support will be available and this may take the form of group seminars, workshops and online materials that will help to develop your project. 

Year Four

In order to complete this programme a student must successfully complete all the following CORE modules (totalling 120 credits):

Group Integrated Master’s Project
40 credits

The purpose of the module is to enable you to undertake a sustained, in-depth and research-informed group project exploring an area that is of personal interest to you. In agreement with your supervisor, your group will decide upon your topic which will take the form of a practical outcome (artefact) with accompanying contextual material. The main consideration when choosing your group’s topic is that it must be aligned to the programme you are studying, and you should consider the relevance of this topic to your future academic or professional development. 

Advanced Materials and Manufacture
20 credits

This module provides an opportunity for you to investigate the world of new materials and to develop an understanding of the techniques used in Computer Aided Manufacture. This will be set in the context of industrial applications and delivered through a combination of taught content and both practical and theoretical research project work.

Principles of Project Management
20 credits

Project management is the application of processes, methods, knowledge, skills and experience to achieve the project objectives (PMBoK, 6th Ed. (2012). Project management is key to delivering strategic value within an organisation and it involves far more than a time plan, a budget and a risk register. Projects can range from construction of a new building to the launch of new product, or outsourcing previous in-house functions, to the re-engineering of products, services and processes. This module will deal with the two main stages of any project: PLANNING and IMPLEMENTATION.

Seven techniques are identified as being applicable to one or both of these: PRINCE II, Activity networking (Work breakdown schedules), Project Financial Appraisal, Earned Value Method of Project Cost Control, Risk Identification and Assessment, Break-even analysis and Use of Computer Software for project planning and Control. 

Reverse Engineering
20 credits

This module aims to provide you with the tools and techniques you require to assist in developing skills and expertise in the reverse engineering process. The module also provides you with an understanding of, and practical experience in, the techniques used in prototype manufacture.

Resource Management
20 credits

This module will focus on resource management and its effective deployment and allocation to achieve sustainable competitive advantage for organisations. Two main resources will be considered: HUMAN and FINANCIAL; without which, organisational success cannot be guaranteed.

You will be introduced to theoretical concepts underpinning resource development and deployment such as, human capital development, change management, motivational theories, learning organisations, financial methods, investment appraisal, budgeting, alongside financial and management accounting.

How you learn

You will develop analytical skills through coursework tasks, encouraging your creativity and problem solving using relevant systems and technologies.

You will be assessed both formatively and summatively by a number of methods, including coursework exercises, examinations, presentations and practical assignments, while assignment methods will include laboratory and design reports, presentations and in-class demonstrations. Summative assessment is by way of assignments, projects, presentations, time-controlled assignments and end examinations, where appropriate to the individual module.

Further study

The University has a range of research (PhD) postgraduate programmes. Details can be found on the postgraduate section of the website.

Study and work abroad

If you are interested in undertaking part of your studies abroad, the Erasmus scheme may be of interest to you. It allows higher education students to study for part of their degree in another European country.

It is open to undergraduates in their second year (or above) and offers a unique opportunity to enhance your CV and experience new cultures. If you study with us you will have access to an Erasmus co-ordinator, who can provide information about which institutions we have links with.

Find out more

Employment Opportunities

We will prepare you for employment by providing you with the skills, experience and industry links you’ll need to thrive upon graduating.

The University also has its Graduate+ scheme, an extracurricular programme which is designed to augment and enhance the subject-based skills you will develop through the programme. These additional skills and attributes will further enhance your employment options and prospects once you leave the University.

The programme will help you develop your skills in CV writing, presentations, covering letters and creating winning portfolios.

Career paths include opportunities in the following areas:

  • Manufacturing Engineering
  • Project Engineering
  • Process Engineering
  • Process Planning
  • Scheduling and Control
  • Logistics
  • Supply Chain Management
  • Jobs outside of manufacturing and engineering requiring analytical and problem-solving skills

OpportUNIty

OpportUNIty Student Ambassador

OpportUNIty: Student Jobs on Campus ensures that our students are given a first opportunity to fill many part-time temporary positions within the University. This allows you to work while you study with us, fitting the job around your course commitments. By taking part in the scheme, you will gain valuable experiences and employability skills, enhancing your prospects in the job market.

It will also allow you to become more involved in University life by delivering, leading and supporting many aspects of the learning experience, from administration to research and mentoring roles.

Firewalking

BCU Graduate+

Through our courses we give you the skills and experience needed to get a head start when applying for jobs. But we offer something extra too – Graduate+.

Our unique programme gives you the chance to develop valuable skills outside of the more formal classroom learning. We award points for Graduate+ activities (including firewalking!) and these can be put towards a final Graduate+ award.

More about Graduate+

Graduate jobs

Students already in employment have often gained promotions in their sponsoring companies and have gone on to pursue professional careers in their chosen industries.

Students who have studied or worked in manufacturing, operations management or general engineering may be eligible to join this course, subject to interview and conditions.

Our Facilities

We offer a wide range of technology to help you with your studies.

We have an ongoing strategy to upgrade and further develop our well-equipped laboratories. These plans are supported by global technology providers such as PTC and Technosoft. These two companies alone have recently donated more than £11 million worth of computer aided design, product lifecycle management and knowledge-based engineering software.

In addition, more than £750,000 worth of capital investment has been made in upgrading our engine emissions test facilities, environmental laboratory and thermodynamics equipment.

Exhaust Analysis

The key features of our exhaust analysis facilities include:

  • Signal Group Analysers in 3 racks with heated sample systems.
  • Sierra BG-3 particulate mini-tunnel.
  • AVL 415S smoke meter.

More about our facilities

Learning from industry experts

Discover more about the industry experts you can meet on our Engineering degree courses.

Laura Leyland is one of our lecturers, watch this video to find out more.

Portrait of  Adnan Fazal

Dr Adnan Fazal

Lecturer in Mechanical Engineering

Dr Adnan Fazal is a Lecturer in Mechanical Engineering and Automotive Engineering. His current research interests include pre-stressed fibre reinforced polymers for improved strength, stiffness, impact protection, resistance to crack propagation and protection against abnormal loads. Potential applications of these smart fibre reinforced polymers include crashworthy structures (automotive), aerofoil morphing structures (aerospace), light-weight blast-resistant (impact protection), medical (dental restoration and prosthetic devices), wind turbine blades and safety and sports apparel.

Read Adnan's full profile

Laura Leyland

Senior Lecturer

Laura Leyland is a senior lecturer in the centre of engineering who has been innovating in engineering education for over 10 years, teaching materials based modules and practical project focussed delivery with a specific interest in developing humanitarian engineering. This module delivery incorporates the Engineering for People Challenge from Engineers Without Borders (BCU winners in 2015) and the Global Biomimicry Challenge.
During a university wide curriculum development project, Laura lead the rewrite of all engineering courses for initial delivery in 2018 to the Conceive, Design, Implement, Operate (CDIO) framework which develops professional skills alongside theoretical knowledge.

Dr Dominic Flynn

Dr Dominic Flynn

Lecturer

Dominic Flynn is a Lecturer in Mechanical Engineering and teaches across a range of modules from foundation to MSc level. His teaching interests are in the mechanical sciences as well as fluid and thermodynamics. 

Portrait of Reaz Hasan

Reaz Hasan

Associate Professor

Reaz Hasan’s expertise is primarily in the area of Energy Studies. He has extensive research experience in using CFD for fluid flow and heat transfer in Built Environment and various industrial systems including applications of nano-fluids. He is also involved in LCA studies and keen on pedagogical research. He teaches subjects related to construction management and Architectural Technology as well as thermal and fluid sciences within various Engineering programmes.

Before coming to Birmingham City University, he worked as a Senior Lecturer in the department of Mechanical and Construction Engineering at Northumbria University. Prior to that, he was a Scientist in the Computational Modelling Section of the Health & Safety Laboratory, a researcher in the Aeronautical Engineering department of Loughborough University and an academic in Bangladesh University of Technology. He has a BSc and MSc in Mechanical Engineering and a PhD in Computational Fluid Dynamics from Imperial College, London. He has published over seventy refereed papers, supervised five PhD’s and more than thirty MSc dissertations.

Read Reaz's full profile