Chemical Engineering

Description

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PhD supervision is normally available in the following areas:

Chemical engineering science

Kinetics and mechanism; new materials and predictive modelling based upon mechanistic understanding; and work on catalytic kinetics, photocatalysis, photon-induced reaction and the elucidation of reaction mechanism. Work in this area also covers the production, property measurement and performance assessment of ceramics, polymers, metals and composites, in particular the development of new materials for advanced engineering applications (including microelectronics, optics and power transmission).

Current research includes: developing novel surface engineering processes and materials (such as fullerene-like coating materials); energy-based methods for performance modelling; and nanomaterials and nanocharacterisation techniques. The measurement and modelling of the mechanical response of materials at high-spatial resolution, particularly in microelectronic and optical devices, is a major specialism of the School and is supported by a combination of unique equipment and interdisciplinary expertise.

Measurement and analysis

Enhanced process understanding and process performance monitoring methodologies for batch, continuous and batch/continuous systems; the development of modelling algorithms that incorporate process dynamics, multiple operating modes and non-linear behaviour; novel approaches for the fusion of data from different sources including process and spectroscopic data for the development of robust models; the development of signal processing tools for the extraction of signals from data that has a very low signal-to-noise ratio, and subsequently the selection of the most appropriate variables for the development of robust calibration models; and the development of techniques for the transfer of models between process lines or different operational sites.

Products and processes research

Membrane processes and novel reactor systems; separation processes; particle technology; bioprocess intensification and tissue engineering; intensified catalysts; materials for intensified processes; catalytic plate reactors; micro-bio/chemical reactors; spinning disc reactors; intensified bioreactors; compact heat exchangers; oscillatory flow reactors; rotating packed beds; and process miniaturisation and reactive distillation.

A major area related to process intensification research is concerned with accelerating the development time of a process across the entire R&D lifecycle. This highly interdisciplinary research combines high-throughput robotic systems with advanced software development. We are developing GRID technologies to support highly dynamic networks of organisations necessary to take processes from chemists ideas into production. Research collaboration between the School and two of the countrys top chemistry departments is combining high-throughput experimentation and reaction calorimetry with advanced modelling and statistical data analysis techniques, to develop a system that can automatically elucidate chemical reaction mechanisms.

Natural resources

Fuel cells and energy systems; gasification; cold plasma gasification; bio-fuel cells; bio-diesel production; gas and water treatment; nano-structured polymer composites for pollution control; sustainable and environmental electrochemical systems; and photochemical processes and electrochemical synthesis.

For more information about staff specialisms please see the School's website.

Contents

The School of Chemical Engineering and Advanced Materials runs a postgraduate training programme that is compulsory for all new students and involves selected taught modules. You also receive research training from the Science, Agriculture and Engineering Graduate School that covers professional/key skills, personal development and research techniques. You have the opportunity to supplement your income by undertaking laboratory demonstrating and tutorial classes.

Requirements

An upper-second-class Honours degree and preferably a good masters degree, or international equivalent, in a relevant discipline.

Applicants whose first language is not English require IELTS 6.5, Pearson's PTE Academic Test 62 or equivalent.

International applicants may require an ATAS (Academic Technology Approval Scheme) clearance certificate prior to obtaining their visa and to study on this programme, applicants will be informed of this in the offer letter.

English Language Requirements

IELTS band: 6.5

IMPORTANT NOTE: Since April 2014 the ETS tests (including TOEFL and TOEIC) are no longer accepted for Tier 4 visa applications to the United Kingdom. The university might still accept these tests to admit you to the university, but if you require a Tier 4 visa to enter the UK and begin your degree programme, these tests will not be sufficient to obtain your Visa.

The IELTS test is most widely accepted by universities and is also accepted for Tier 4 visas to the UK- learn more.