Programme Specification for the 2025/6 academic year
BEng (Hons) BEng Chemical Engineering with International Foundation Year
1. Programme Details
| Programme name | BEng (Hons) BEng Chemical Engineering with International Foundation Year | Programme code | UFN4ENSINT02 |
|---|---|---|---|
| Study mode(s) | Academic year | 2025/6 | |
| Campus(es) | Streatham (Exeter) |
NQF Level of the Final Award | 6 (Honours) |
2. Description of the Programme
This is a 4-year undergraduate degree programme with a fully embedded International Foundation Year. During the Foundation year, you will develop your English language, academic skills and subject knowledge at INTO. In the following year, you will move to the Faculty of Environment, Science and Economy (ESE) and join the first year of a Chemical Engineering degree.
- One of the most multi-disciplinary areas of Engineering, Chemical Engineering is based on the processes of converting raw materials into useful products in a sustainable way.
- You will gain knowledge across all areas of Engineering and underpinning sciences to help you design these conversion processes to make them safe and effective, from bench-top to industrial scale.
- With sustainability in mind, you will learn from experts about clean energy generation and storage, waste reduction and water treatment, and smart coatings and nanotechnology.
- With our emphasis on project-based learning, you will develop a range of transferable skills to complement your core technical skills by taking part in exciting, hands-on group and individual projects.
- Your future career starts here, where you will gain the necessary technical and practical knowledge to work in a wide range of current and future industries, from food, drink and other consumer goods, through healthcare, towards clean energy.
3. Educational Aims of the Programme
The Foundation year of the BEng in Chemical Engineering with International Foundation Year programme aims to help you meet the linguistic and academic requirements for progression to the first, and subsequent, stages of your degree programme at Exeter. It is also designed to help you to develop the necessary study skills and approaches to learning required for successful undergraduate study as well as introduce you to the culture of academic study in a UK Higher Education institution.
This program aims to provide students with a comprehensive knowledge and understanding of general engineering and foundational sciences. It encourages critical thinking and develops key problem-solving skills using a systems approach and appropriate tools. Additionally, it fosters an appreciation for social, environmental, legal, ethical, safety, economic, and commercial issues. This broad sector approach equips students with the practical and professional skills necessary to assume key leadership roles within multidisciplinary teams, enabling them to address present and future challenges after graduation.
Students will gain a strong foundation in Chemical Engineering principles through lectures, with opportunities for practice and consolidation in tutorials and workshops. These sessions will cover fundamental concepts and principles, industrially relevant processes at different scales, and modelling and quantitative approaches. Industrially relevant examples of process and product technology will be provided, always with safety and sustainability in the forefront.
Hands-on practical sessions with small-scale equipment will enable students to understand theoretical concepts in practice. Through problem-based learning, students will learn how to apply Chemical Engineering knowledge in real-world scenarios. This will enable them to design complex processes involving multiple steps, equipment sizing, control and performance, and safety and loss prevention, all while dealing with strict technical and business requirements, often limited or uncertain.
Taught sessions are developed with accessibility in mind, embracing the ethos that everyone has different ways of learning and participating. This approach ensures that students of all talents can engage effectively and achieve strong academic outcomes.
4. Programme Structure
The BEng Chemical Engineering with International Foundation Year is a 4-year full-time programme of study at Regulated Qualifications Framework (RQF) level 6 (as confirmed against the FHEQ). This programme is divided into four stages. Each stage is normally equivalent to an academic year.
The Foundation year of your programme will be taught by University of Exeter International Study Centre (ISC) with the subsequent 3 stages being taught by the Engineering department at the University of Exeter’s Faculty of Environment, Science and Economy (ESE).
At stage zero 0 (the foundation year) of the programme, you can progress to stage 1 of the BEng Chemical Engineering programme once the 120 credits have been passed, and provided that an average of at least 55% has been achieved over the 120 credits of assessments for this stage.
Interim / Exit Awards
If you do not complete the programme, you may be able to exit with a lower qualification. If you have achieved 120 credits in the Foundation stage, you may be awarded a Foundation Certificate in Combined Studies. Following stage one, you may be awarded a Certificate of Higher Education, and if you achieve 240 credits, where at least 90 credits are at level 2 or above, you may be awarded a Diploma of Higher Education.
Note: Guidance on Interim and Exit awards (and the difference between than can be viewed here: http://as.exeter.ac.uk/academic-policy-standards/tqa-manual/pma/introduction/#exit-interim
5. Programme Modules
The following tables describe the programme and constituent modules. Constituent modules may be updated, deleted or replaced as a consequence of the annual programme review of this programme.
Stage 1
Stage 0 (foundation): 90 credits of compulsory modules, 30 credits of optional modules.
Compulsory Modules
| Code | Module | Credits | Non-condonable? |
|---|---|---|---|
| INT0052 | Foundation Academic English | 30 | Yes |
| INT0053 | Current Global Issues | 30 | Yes |
| INT0065 | Mathematics and Statistics | 30 | Yes |
Optional Modules
| Code | Module | Credits | Non-condonable? |
|---|---|---|---|
| INT0067 | Physics, Engineering and Applied Mathematics | 30 | Yes |
| INT0074 | Biology | 30 | Yes |
| INT0075 | Psychology | 30 | Yes |
Stage 2
Stage 1: 120 credits of compulsory modules, 0 credits of optional modules.
Compulsory Modules
| Code | Module | Credits | Non-condonable? |
|---|---|---|---|
| ENG1002 | Engineering Mathematics and Scientific Computing | 30 | Yes |
| ENG1005 | Multi-Disciplinary Group Challenge Project | 30 | Yes |
| ENS1000 | Fundamentals of Engineering | 15 | Yes |
| ENG1007 | Fundamentals of Mechanics | 15 | No |
| ENG1008 | Fundamentals of Materials | 15 | No |
| ENG1009 | Fundamentals of Electronics | 15 | No |
Stage 3
Stage 2: 120 credits of compulsory modules, 0 credits of optional modules.
Compulsory Modules
| Code | Module | Credits | Non-condonable? |
|---|---|---|---|
| ENS2008 | Chemical Engineering Challenge Project | 30 | Yes |
| ENS2003 | Principles of Chemical Engineering | 15 | Yes |
| ENS2009 | Reaction and Reactor Engineering 1 | 15 | Yes |
| ENG2007 | Introduction to Fluid Dynamics | 15 | No |
| ENG2009 | Modelling of Engineering Systems | 15 | No |
| ENG3016 | Thermodynamics and Heat Transfer | 15 | No |
Stage 4
Stage 3: 120 credits of compulsory modules, 0 credits of optional modules.
Compulsory Modules
| Code | Module | Credits | Non-condonable? |
|---|---|---|---|
| ENS3006 | Chemical Engineering Design: 1 - Research | 15 | Yes |
| ENS3007 | Chemical Engineering Design: 2 - Development | 15 | Yes |
| ENS3019 | ENS3019 Reaction and Reactor Engineering 2 | 15 | No |
| ENS3020 | Energy Storage | 15 | No |
| ENS3021 | Separation Processes and Particle Technology 1 | 15 | No |
| ENS3022 | Separation Processes and Particle Technology 2 | 15 | No |
| ENS3023 | Transport Phenomena | 15 | No |
| ENG3005 | Fluid Dynamics and CFD | 15 | No |
6. Programme Outcomes Linked to Teaching, Learning and Assessment Methods
Intended Learning Outcomes
A: Specialised Subject Skills and Knowledge
| Intended Learning Outcomes (ILOs) On successfully completing this programme you will be able to: | Intended Learning Outcomes (ILOs) will be... | |
|---|---|---|
| ...accommodated and facilitated by the following learning and teaching activities (in/out of class): | ...and evidenced by the following assessment methods: | |
1. Have a knowledge and understanding of mathematical and computational modelling and apply them to problems related to Chemical Engineering. | The foundation specific ILO is explicitly addressed during the Academic English module in year 0 which employs a variety of learning activities and teaching methods including teacher-led groups, student presentations, seminars and set tasks. (INT0052) A variety of teaching methods will be used to deliver the programme, with sessions ranging from lectures, tutorials, laboratory and workshop practical sessions, problem-based and computer-aided learning. External contributions, including from Industry, are also included in the final years, alongside project supervision. | A variety of assessment methods aligned with the intended learning outcomes are used throughout the programme in the form of, for example, written examination papers and marked coursework (e.g. problem sheets, laboratory reports, computer exercises, group or individual reports and presentations with visual aids). Where possible, group assessments will have an individual component. All assessments will be based on clearly stated criteria, with a robust quality assurance process to ensure consistency and fairness in outcomes, and safeguards against academic misconduct. English language assessment comprises a group presentation, listening and note-taking tasks, seminars and written tasks (including note-taking, summary, paraphrasing, referencing). |
Intended Learning Outcomes
B: Academic Discipline Core Skills and Knowledge
| Intended Learning Outcomes (ILOs) On successfully completing this programme you will be able to: | Intended Learning Outcomes (ILOs) will be... | |
|---|---|---|
| ...accommodated and facilitated by the following learning and teaching activities (in/out of class): | ...and evidenced by the following assessment methods: | |
1. The learning outcomes listed here are based on the IChemE accreditation guide. | See above. | See above. |
Intended Learning Outcomes
C: Personal/Transferable/Employment Skills and Knowledge
| Intended Learning Outcomes (ILOs) On successfully completing this programme you will be able to: | Intended Learning Outcomes (ILOs) will be... | |
|---|---|---|
| ...accommodated and facilitated by the following learning and teaching activities (in/out of class): | ...and evidenced by the following assessment methods: | |
6. Understand the need for high ethical and professional standards and how they are applied, including an inclusive approach to engineering practice, an effective ethics culture, and safety, health and environment. | See above. | See above. |
7. Programme Regulations
Classification
Full details of assessment regulations for all taught programmes can be found in the TQA Manual, specifically in the Credit and Qualifications Framework, and the Assessment, Progression and Awarding: Taught Programmes Handbook. Additional information, including Generic Marking Criteria, can be found in the Learning and Teaching Support Handbook.
8. College Support for Students and Students' Learning
In accordance with University policy, a system of Academic Tutors and a Pastoral Mentor is in place for all students on this programme. A University-wide statement on such provision is included in the University's TQA Manual. As a student enrolled on this programme, you will receive the personal and academic support of the Programme Coordinator and will have regular scheduled meetings with your Academic Tutor. You may request additional meetings as and when required. The role of personal tutors is to provide you with advice and support for the duration of the programme and extends to providing you with details of how to obtain support and guidance on personal difficulties such as accommodation, financial difficulties and sickness. The departmental Pastoral Mentor is also there to help you and refer you to specialist support. You can also make an appointment to see individual teaching staff.
Online Module study resources provide materials for modules that you are registered for on the Exeter Learning Environment (ELE). Coursework is also submitted through ELE, with marks and feedback available through the system as well. Each module page is linked to the Library, with easy access to reading lists. Our Library is a digital-first library, with most items accessible online, and an Engineering-specific subject guide and liaison librarian.
Information Technology (IT) Services provide a wide range of services throughout the Exeter campuses including open access computer rooms, some of which are available 24 hours, 7 days a week. Help may be obtained through the Helpdesk, and most study rooms in halls and flats are linked to the University's campus network. Additionally, the University has its own dedicated IT support staff, helpdesk and computer facilities which are linked to the wider network, but which also provide access to some specialised software packages. Email is an important channel of communication between staff and students in the Faculty and an extensive range of web-based information is available.
9. University Support for Students and Students' Learning
Please refer to the University Academic Policy and Standards guidelines regarding support for students and students' learning.
10. Admissions Criteria
Undergraduate applicants must satisfy the Undergraduate Admissions Policy of the University of Exeter.
Postgraduate applicants must satisfy the Postgraduate Admissions Policy of the University of Exeter.
Specific requirements required to enrol on this programme are available at the respective Undergraduate or Postgraduate Study Site webpages.
11. Regulation of Assessment and Academic Standards
Each academic programme in the University is subject to an agreed College assessment and marking strategy, underpinned by institution-wide assessment procedures.
The security of assessment and academic standards is further supported through the appointment of External Examiners for each programme. External Examiners have access to draft papers, course work and examination scripts. They are required to attend the Board of Examiners and to provide an annual report. Annual External Examiner reports are monitored at both College and University level. Their responsibilities are described in the University's code of practice. See the University's TQA Manual for details.
14. Awarding Institution
University of Exeter
15. Lead College / Teaching Institution
Faculty of Environment, Science and Economy (ESE)
16. Partner College / Institution
Partner College(s)
Not applicable to this programme
Partner Institution
International Study Centre
17. Programme Accredited / Validated by
Not applicable to this programme.
18. Final Award
BEng (Hons) BEng Chemical Engineering with International Foundation Year
19. UCAS Code
Not applicable to this programme.
20. NQF Level of Final Award
6 (Honours)
21. Credit
| CATS credits | 480 |
ECTS credits | 240 |
|---|
22. QAA Subject Benchmarking Group
[Honours] Engineering
23. Dates
| Origin Date | Date of last revision |
|---|