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Students
Tuition Fee
USD 14,640
Per year
Start Date
Medium of studying
On campus
Duration
12 months
Program Facts
Program Details
Degree
Masters
Major
Chemical Engineering | Process Engineering
Area of study
Engineering
Education type
On campus
Timing
Full time
Course Language
English
Tuition Fee
Average International Tuition Fee
USD 14,640
Intakes
Program start dateApplication deadline
2023-09-202023-07-01
2024-01-202023-10-15
About Program

Program Overview


About the course

The Humber is the largest trading estuary in the UK and the fourth largest in Europe, with a chemical and process sector worth £6bn a year.

The region is one of the fastest-growing chemical bases in the UK, with investment in new build, expansion and mainteNAce exceeding £1 billion.

This makes Hull the ideal location to study Advanced Chemical Engineering. You benefit from studying near over 350 engineering and process giants including Phillips66, Total, Novartis, BP Chemicals, Croda, Cristal, Smith & Nephew and Reckitt, many of which are involved with the university. We place a strong emphasis on the practical application of knowledge. The University has strong, direct links with industry, providing you with opportunities to work on real-world engineering projects.

Our MSc Advanced Chemical Engineering programme is designed for applicants who wish to enhance a technical career in the chemical and process industry. It is targeted at those from a chemical engineering or similar background. The programme provides a variety of practical and theoretical modules to suit the individual background of students.





What you'll study

This programme integrates current and employer-relevant themes, enabling you to acquire knowledge and skills across a wide range of topics in the chemical and process industry with an emphasis upon chemical engineering applications.

The course comprises a combination of lectures, practical design exercises, tutorials and computer-based process simulations and optimisations. It benefits from a mix of resource-based, problem-based and enquiry-led learning.

You will develop competence and confidence in the application of engineering knowledge and techniques to a range of industrial and real-world problems in the chemical and process Industry.

A final project and dissertation will enable you to apply theory and practice to analyse and solve complex engineering problems.

Core module

All modules are subject to availability and this list may change at any time.

  • Individual Project

    This module gives you the opportunity to carry out an individual design or research and development project. It is an opportunity to gain a wider perspective of society and sustainability, while exploring project management techniques and presentation of progress, milestones and results through a variety of media.​

  • Compulsory module

    All modules are subject to availability and this list may change at any time.

  • Research Skills and Project Planning

    This module provides you with the skills to plan and conduct an academic or industry-based research project, and start the preparatory work on your own project that you will undertake over the summer.

  • Advanced Process Safety, Industrial Process Control and Instrumentation

    Specialised topics in advanced industrial process safety and control of chemical processes are explored in this module.

  • Optional modules

    All modules are subject to availability and this list may change at any time.

  • Chemical Engineering of Nano-materials

    ​This module introduces modern carbon and metal based NAo-materials. You'll explore the NAo-materials synthesis, properties modification and application fields. You'll gain firsthand practical skills development during NAo-materials labs.

  • Energy Technologies

    Explore a diverse range of contemporary technologies related to the energy generation sector. This module also focuses on sustainability issues.

  • Advanced Process Modelling and Simulation Techniques

    ​This module delivers advanced skills on the Aspen HYSYS and COMSOL modelling packages functionality and application to design and optimisation of the core chemical engineering equipment.

  • Petroleum and Petrochemical Engineering

    The oil industry is continuously developing and is therefore both recognised and expected to remain as a major contributor to the economy of many developed and developing countries and regions. Develop insight into the petroleum and petrochemical engineering sector with respect to their practical application to chemical engineering process analysis and design.

  • Energy Generation from Conventional and Renewable Fuels

    You will be introduced to the core technical and socioeconomic (sustainability) aspects determining the selection of conventional and alternative fuel balance for energy generation in UK and EU. This includes clean coal, natural gas, biomass residues and other waste.

  • Computational Fluid Dynamics and Heat Transfer

    Get hands-on experience with a major commercial Computational Fluid Dynamics package and demonstrate your skills for a practical engineering application.

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