Research Projects

All research projects at the School of Engineering. You can search keywords within Project title and filter by Research Institute.

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Project Titlesort descending Principal Supervisor Research Institutes Project Summary
Challenging RISK: Achieving Resilience by Integrating Societal and Technical Knowledge

Professor Luke Bisby

Infrastructure and Environment

This project is concerned with socially integrated mitigation of multiple structural risks in the urban environment, with a focus on the linked risks of earthquake and fire. Fire is the largest contributor to building damage following earthquakes. To date, this research area has largely been ignored as it crosses the boundaries between the knowledge areas of earthquake and fire safety engineering. The combination of factors adds to the challenges in risk estimation already existing in each distinct area. There is currently no universally accepted method for accounting for the effect of strengthening practices on building vulnerability to earthquakes (let alone earthquakes followed by fire). In the case of fire safety engineering, few credible techniques for damage estimation or risk-based design currently exist due to a lack of requisite input data. This project will develop, through large scale structural testing and computational analysis, new technical engineering solutions to these problems. And, for the first time, these technical engineering solutions will be developed explicitly accounting for the social context within which they are to be enacted.

Clearwater: Demonstration of First Ocean Energy Arrays

Mr Henry Jeffrey

Energy Systems

This project will design, build, install and operate an open ocean 4.5MW tidal energy farm in the Inner Sound in the Pentland Firth, off the Northern coast of Scotland. The project ("Clearwater") will demonstrate the technical and economic feasibility of a multi-turbine tidal energy array, an essential step to catalyse development of commercial projects in the EU ocean energy industry. Project Clearwater provides a credible, robustly implemented transition from high cost single turbine demonstration deployments of marine turbines to economically viable multi-hundred turbine arrays in oceans and managed water assets across Europe and the wider global market.

Community-Based Waste-Water Treatment in International Development

Dr Martin Crapper

Infrastructure and Environment

A project, funded by PhD scholarships from the Islamic Development Bank and EPSRC (via the Doctoral Training Grants) is underway looking at the efficiency of meso-scale waste stabilization ponds to treat municipal waste water, with resource recovery from fish farming and selling sludge for fertilizer. The ultimate aim is to demonstrate systems that can be adpoted and run by communities, particularly in urban West Africa. The pilot project is based in Cotonou, Benin.

DEM model calibration and validation for cohesive soil-machine interactions

Prof. Jin Ooi

Infrastructure and Environment

The modelling of cohesive soils is a challenging task of great importance in many earth moving processes. In these cases, the understanding of the interaction soil-machine is vital to try to optimize the process and avoid problems. This project aims to investigate the capabilities of DEM cohesive contact models to capture with a sufficient level of accuracy the mechanical behaviours involved in soil-machine interactions.

DTOcean: Optimal Design Tools for Ocean Energy Arrays

Mr Henry Jeffrey

Energy Systems

DTOcean is a European collaborative project funded by the European Commission under the 7th Framework Programme for Research and Development, more specifically under the call ENERGY 2013-1.

Dense suspension rheology through DEM simulations

Dr. Jin Sun

Infrastructure and Environment

Mud, slurry, coffee, paints, cements, batteries and many other everyday materials have particles suspended in a liquid. We need to understand the flow behaviour to handle, and process such materials for traditional and innovative applications. Our research seeks to understand the common features of the flow behaviour of different materials using simple particle based simulations. In particular, we focus on dense suspensions where the particles occupy more than 50 % by volume of the solution.

Development and Evaluation of Sustainable Technologies for Flexible Operation of Conventional Power Plants

Dr Hannah Chalmers

Energy Systems

The increasing amounts of renewable energy present on the national grid reduce C02 emissions caused by electrical power but they fit into an electrical grid designed for fossil fuels. Fossil fuels can be turned on and off at will and so are very good at matching variations in load. Renewable energy in the form of wind turbines is more variable (although that variability is much more predictable than most people think) and there is a need for existing power plants to operate much more flexibly to accommodate the changing power output from wind, tidal and solar power.

Development and use of an advanced ZVI nanomaterial for water treatment applications

Dr Andrea Joana Correia Semiao, Dr Blanca Antizar-Ladislao

Infrastructure and Environment

Miss Underwood's doctoral research seeks to develop and test new nano-composite materials for the use in water treatment. She wishes to improve upon the existing nano zero-valent iron technologies as well as to explore how specific nanotechnologies can be applied in an economic and incentivized fashion for successful technological adoption.

Development of H2 PSA (99.9% purity and 85+% recovery) Integrated with a Pre-Combustion IGCC and its Integrated Efficiency evaluation

Dr Hyungwoong Ahn

Materials and Processes

This project is aimed to develop a novel process for producing ultrapure hydrogen from synthesis gas originating from coal gasification. The coal-to-H2 process is integrated with a pre-combustion carbon capture process for de-carbonising the syngas and the integration results in improving H2 yield at the H2 Pressure Swing Adsorption (PSA).

Development of UV and visible light active photocatalysts

Dr Xianfeng Fan

Materials and Processes

To address the need for effective vis response photocatalysts, we have synthesised WO3 and TiO2 nanowires to provide a fast transport channel for the photo-generated electrons which can retard the charge recombination. We are working on improving the visible activity of the catalysts through modifying the nanocomposites using metal (Ag, W, V, Fe, Ni) and non-metal (C, N, B, S) elements, and through the control over the microstructure or even over the crystal phase.

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