inline-defaultCreated with Sketch.

This website uses cookies to ensure you get the best experience on our website.

Students
Tuition Fee
USD 30,628
Per year
Start Date
Medium of studying
On campus
Duration
48 months
Program Facts
Program Details
Degree
Masters
Major
Chemical Engineering | Environmental Engineering
Area of study
Engineering
Education type
On campus
Timing
Full time
Course Language
English
Tuition Fee
Average International Tuition Fee
USD 30,628
Intakes
Program start dateApplication deadline
2023-09-232023-07-04
2024-01-23-
About Program

Program Overview


Learn the core knowledge and technical skills of chemical engineering and focus on the environmental challenges of new technologies, processes and products.

The first three years of our course develop your understanding of the core practices of chemical engineering. Through problem-based learning, you'll critically apply mathematical, scientific and engineering knowledge to projects. A mix of practical work in laboratories and theory in lectures and seminars gives you the breadth of learning needed to become adept in the subject.

You’ll also develop transferable skills such as problem solving, teamwork and resource management. Integrating these with your technical knowledge, you’ll learn how to tackle complex, and often open-ended, engineering problems. The Individual and group projects you carry out through the degree are a chance for you to develop scientific ideas from bench scale to process scale.

In your final year, you’ll have the opportunity to build on your chemical engineering knowledge by specialising in environmental engineering. Choosing this route allows you to explore aspects that address social, environmental and health issues, as well as sustainability. Focusing on environmental science and engineering, you'll study the economic, legislative and ethical issues that control environmental protection and sustainability. Areas you'll cover will include clean technologies such as water treatment and waste management.

You can switch between this and our MEng Chemical Engineering course up until the end of your third year. This is so you can use your study experience so far to help you decide on your final degree.

Teaching

Our department’s great staff and student community provides a friendly and supportive environment to learn in. We deliver teaching complemented by guest lectures from practitioners to give you a professional and practical perspective on the subject. You’ll learn from expert academic staff whose industrial collaborations, research and entrepreneurial activities feed into our teaching and contribute to your learning experience.





Facilities

Specialist facilities are central to your study experience. Our laboratory facilities range from bench scale to pilot scale and are specially equipped to enhance your education in becoming a chemical engineer. You’ll have access to:

  • recently developed undergraduate teaching labs containing continuous reactors, microbial bioreactors and a range of other bespoke equipment designed to highlight core chemical engineering concepts
  • reaction engineering research labs where we are making breakthroughs in sustainable products
  • advanced separation research laboratories focused on the synthesis and characterisation of low-cost membrane technology
  • high-spec biochemical engineering labs where the fuels and foods of the future are being developed
  • Watch a video tour of our laboratory facilities to see the equipment you could be using as part of your degree.





    Careers

    Chemical engineering is one of the highest-paid professions in the UK. With a degree from Bath, you can be confident that you’ll graduate with the specific engineering knowledge as well as valuable transferable skills to help start your career. You could take on technical and managerial roles across industry and commercial sectors. For example, you could follow a career in alternative fuels, healthcare industries, water treatment, production of consumables such as foodstuffs and toiletries in the fast moving consumer goods industries, and oil and gas.

    Find out what our graduates go on to do.

    Learn the core knowledge and technical skills of chemical engineering and focus on the environmental challenges of new technologies, processes and products.

    The first three years of our course develop your understanding of the core practices of chemical engineering. Through problem-based learning, you'll critically apply mathematical, scientific and engineering knowledge to projects. A mix of practical work in laboratories and theory in lectures and seminars gives you the breadth of learning needed to become adept in the subject.

    You’ll also develop transferable skills such as problem solving, teamwork and resource management. Integrating these with your technical knowledge, you’ll learn how to tackle complex, and often open-ended, engineering problems. The Individual and group projects you carry out through the degree are a chance for you to develop scientific ideas from bench scale to process scale.

    In your final year, you’ll have the opportunity to build on your chemical engineering knowledge by specialising in environmental engineering. Choosing this route allows you to explore aspects that address social, environmental and health issues, as well as sustainability. Focusing on environmental science and engineering, you'll study the economic, legislative and ethical issues that control environmental protection and sustainability. Areas you'll cover will include clean technologies such as water treatment and waste management.

    You can switch between this and our MEng Chemical Engineering course up until the end of your third year. This is so you can use your study experience so far to help you decide on your final degree.





    Teaching

    Our department’s great staff and student community provides a friendly and supportive environment to learn in. We deliver teaching complemented by guest lectures from practitioners to give you a professional and practical perspective on the subject. You’ll learn from expert academic staff whose industrial collaborations, research and entrepreneurial activities feed into our teaching and contribute to your learning experience.





    Facilities

    Specialist facilities are central to your study experience. Our laboratory facilities range from bench scale to pilot scale and are specially equipped to enhance your education in becoming a chemical engineer. You’ll have access to:

  • recently developed undergraduate teaching labs containing continuous reactors, microbial bioreactors and a range of other bespoke equipment designed to highlight core chemical engineering concepts
  • reaction engineering research labs where we are making breakthroughs in sustainable products
  • advanced separation research laboratories focused on the synthesis and characterisation of low-cost membrane technology
  • high-spec biochemical engineering labs where the fuels and foods of the future are being developed
  • Watch a video tour of our laboratory facilities to see the equipment you could be using as part of your degree.





    Careers

    Chemical engineering is one of the highest-paid professions in the UK. With a degree from Bath, you can be confident that you’ll graduate with the specific engineering knowledge as well as valuable transferable skills to help start your career. You could take on technical and managerial roles across industry and commercial sectors. For example, you could follow a career in alternative fuels, healthcare industries, water treatment, production of consumables such as foodstuffs and toiletries in the fast moving consumer goods industries, and oil and gas.

    Find out what our graduates go on to do.

    Program Outline


    Course structure

    This course lasts 4 years. It starts in September 2023 and ends in 2027. Welcome week starts on 25 September 2023.


    Occasionally we make changes to our programmes in response to, for example, feedback from students, developments in research and the field of studies, and the requirements of accrediting bodies. You will be advised of any significant changes to the advertised programme, in accordance with our Terms and Conditions.


    Units

    At Bath, our courses are made up of units of study. Compulsory units cover core concepts that you'll need to understand as part of your degree programme. Some of our courses also offer the opportunity for you to study optional units. These allow you to specialise in particular areas of knowledge that interest you.

    As an undergraduate, you will be expected to take 60 credits (ECTS) in each academic year. These are usually split into 30 credits for each semester you study. Sixty credits are the equivalent of 1200 notional hours of study; this includes contact time with staff and your own independent learning.



    Year 1


    Compulsory units


  • Chemical engineering skills, practice and design 1

    15 credits


  • Principles of chemical engineering 1

    30 credits


  • Professional portfolio 1

    5 credits


  • Science and mathematics for chemical engineering

    10 credits



  • Year 2


    Compulsory units


  • Chemical engineering skills, practice and design 2

    15 credits


  • Principles of chemical engineering 2

    30 credits


  • Process dynamics, modelling and control

    10 credits


  • Professional portfolio 2

    5 credits



  • Year 3


    Compulsory units


  • Advanced principles of chemical engineering

    15 credits


  • Environmental and engineering project management

    15 credits


  • Product and process design (group)

    15 credits


  • Product and process design (individual)

    15 credits



  • Year 4


    Compulsory units


  • Advanced core environmental engineering

    10 credits


  • Clean technologies for environmental engineering

    10 credits


  • Economics and legislation for environmental engineering

    10 credits


  • MEng research project in environmental engineering

    30 credits




  • Learning and assessment

    You’ll be taught and assessed by a variety of methods and it will vary between units. These methods are designed to promote in-depth learning and understanding of the subject.




    Learning

  • Laboratory sessions
  • Lectures
  • Online resources
  • Practical sessions
  • Seminars
  • Tutorials
  • Workshops


  • Assessment

  • Coursework
  • Practical work
  • Written examination

  • Learning and teaching

    We provide a flexible learning experience delivered online and in person on campus. You should expect to spend around 35 to 40 hours a week studying on your course. These hours consist of structured activities and independent learning. You can expect to spend between 15 and 20 hours a week on structured learning activities, which are made up of in-person and online sessions. Timetabled sessions on campus include a mix of lectures, tutorials and laboratories. Online activities might include following a recorded lecture or other learning materials or joining a timetabled live interactive session.


    Independent learning

    The rest of your time will be spent in independent learning and take up between 15 to 25 hours a week. This includes individual research, reading journal articles and books, working on individual and group projects, preparing coursework assignments, presentations, or revising for exams.


    Assessment breakdown

    A broad range of assessments methods will be used throughout the degree. As a guide, approximately 60% of assessment is by coursework over the duration of the course.

    The final degree classification is determined by your second, third and final year marks and each contributes 20%, 40% and 40% respectively.

    We can make reasonable adjustments to assessment procedures for students with disabilities, take a look at our Disability Service’s pages for information.




    Recognition of professional qualifications


    As well as being recognised as a higher academic qualification, a number of our degrees are also accredited by professional bodies in the United Kingdom. An accredited degree may entitle you to work in a specific profession within the UK, and abroad (where there are reciprocating arrangements with professional bodies in other countries).

    The requirements to practise a profession vary from country to country. If you wish to practise your profession outside the United Kingdom, you are advised to confirm that the UK professional qualification you seek is valid in the country in which you are intending to work.

    The United Kingdom currently subscribes to The Mutual Recognition of Professional Qualifications (MRPQ) Directive. The MRPQ Directive provides a reciprocal framework of rules which enables European Economic Area (EEA) and Swiss nationals to have their professional qualifications recognised in a state other than the one in which the qualification was obtained. In the event of a no deal Brexit, from 1 January 2021, the MRPQ Directive will no longer apply to the UK. However, it is anticipated that there will be a new system for recognising professional qualifications between the UK, EEA, and Switzerland.

    SHOW MORE
    How can I help you today?