Automotive and Competitive Design
The group works closely with industry on a range of projects including competitive development of many complex devices, such as turbochargers, active filtration systems, regenerative braking and control devices that underpin low-carbon transport policy.
To find out more about our research in this area visit the Automotive Research Centre web pages.
Chemical and Process Engineering
Process Systems Engineering (PSE) and Computer Aided Process Engineering (CAPE) are leading-edge research topics in chemical and process engineering.
The group strongly encourages national and international collaboration on short and long term projects on the development and use of computational tools in all aspects of chemical and process engineering activities.
Minimisation of energy consumption and environmental impact are the key driving factors in novel design, operation, and control and enhanced productivity in a number of process engineering application such water desalination, refinery hydrotreating and heat exchanger network, distillation, etc..
Also model-based experimental analysis, modelling and optimization of complex process engineering and energy systems with large structural diversity and a high number of elements are being considered.
Particular attention is been paid to the holistic view of the involved processes phenomena, micro and macro processes, process design and the final experimental verification including improved monitoring. Resource efficiency thrust is employed for industrial fluids process modelling including particle science.
Dynamics and Control
Dynamics and control of powertrains and drivelines of mechatronic systems with specialisation in mathematical modelling, identification and validation using short distance telemetry and condition monitoring for energy recovery.
Current activities include:
- Turbocharger blade tip timing
- Powertrain testing and calibration
- Model based electric vehicle control
Manufacturing and Materials
Manufacturing and Materials group is researching into the broad system’s aspect of manufacturing: strategy, planning, control, maintenance, supply chain, process improvement and scheduling through the use of AI tools (Knowledge-Based systems, Expert Systems, Artificial Neural Networks and Genetic Algorithms), with particular emphasis in the automotive manufacturing environment.
The materials aspect of the research group focuses on powder metallurgy processing of ferrous-based materials with specific interests in optimising material compositions to enhance processibility, microstructure and end-use properties.
Risk and Reliability Modelling
This research sub-group explores new methods for modelling complex risk and reliability applications in large installations in the Nuclear, Military and Aerospace industries. New models are being developed to determine Minimal Cut Sets of complex Fault Trees and extended further to handle advanced Markov Modeling with particular application to Protective Systems - to properly account for different failure, repair and testing regimes.
The research has already yielded a hardware-oriented solution (as opposed to software-oriented solution), using Application Specific Integrated Circuits (ASIC) and Programmable Logic Device (PLD) simulation software to store and analyse the failure logic of large and complex systems.
Advanced Engineering Systems Optimisation
The aim of this group is to improve the design process and designed products by effectively exploiting the combination of computational modelling and optimisation algorithms and tools (external link) to support and enhance the creativity and decision-making of engineering designers.