Fire-fighting underventilated fires |
Dr Ricky Carvel
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Infrastructure and Environment |
Working with the fire brigades, and using a small-scale experimental apparatus to define appropriate fire-fighting responses to underventilated fires in sealed or partially sealed compartments.
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FireComp: Modelling the thermo-mechanical behaviour of high pressure vessel in composite materials when exposed to fire conditions |
Dr Stephen Welch
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Infrastructure and Environment |
Hydrogen is expected to be highly valuable energy carrier for the 21st century as it should participate in answering main societal and economical concerns. To exploit its benefits at large scale, further research and technological developments are required. In particular, the storage of hydrogen must be secured. Even if burst in service of pressure vessels in composite material is very unlikely, when exposed to a fire, they present safety challenges imposing to correctly size their means of protection.
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Flow and sintering of non-spherical particles in additive manufacturing |
Dr. Jin Sun
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Infrastructure and Environment |
The Edinburgh part of the project focues on the multi-physics modelling of particle dynamics and sintering behaviour in selective laser sintering processes. This work is an integrated part of an EPSRC funded project to develop fundamental understanding of particle behavour in additive manufacturing, collaborating with the University of Exeter. This project proposes to investigate the way polymeric powders of different shapes and sizes flow, interact and sinter in the laser sintering process, through modelling and experimental validation. Laser sintering is part of the additive manufacturing technology, known for its benefits in industries where custom made products, lightweight and complex designs are required.
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GECOMPL: Generalised Continuum Models and Plasticity |
Dr Stefanos Papanicolopulos
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Infrastructure and Environment |
The GECOMPL project aims to enable wider adoption of generalised plasticity models in practical applications. More specifically, the project proposes a detailed study of the formulation of both existing and new elastoplastic constitutive laws in the framework of generalised continua, leading to a better understanding of the different possible constitutive models and providing both the necessary theoretical basis and the appropriate numerical tools needed to use generalised continuum models in describing elastoplastic behaviour.
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GREENNET An early stage training network in enabling technologies for GREEN radio |
Professor Harald Haas
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Imaging, Data and Communications |
Greenet is an Initial Training Network (ITN) Marie Curie project that is focused on the analysis, design, and optimization of energy efficient wireless communication systems and networks.
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Geobag Revetments for river bank reinforcement in Bangladesh |
Dr Martin Crapper
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Infrastructure and Environment |
This project aims at the production of guidelines for the safe design of revetments, which are often constructed manually by local farmers, with little engineering input.
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Ground Penetrating Radar (GPR) Modelling |
Dr Antonis Giannopoulos
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Infrastructure and Environment |
Welcome to GPR Max, a ground penetrating radar simulation tool.
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HARP: High capacity network Architecture with Remote radio heads & Parasitic antenna arrays |
Dr Tharmalingam Ratnarajah
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Imaging, Data and Communications |
To bring distributed multi-antenna wireless access to reality by combining two powerful emerging technologies:
radio remote heads (RRHs), which allow for widely geographically distributed access via radio-over-fibre connections to a central base station; and
electronically steerable passive array radiators – ESPARs, which provide multi-antenna-like functionality with a single active RF chain only
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Health and Safety in Voluntary Sector Construction |
Dr Martin Crapper
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Infrastructure and Environment |
This research, conducted using sociological methods, investigates how these volunteer workers of railway sector construct safety in their volunteering environment.
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High Performance Computing Support for United Kingdom Consortium on Turbulent Reacting Flows (UKCTRF) |
Dr Stephen Welch
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Infrastructure and Environment |
The proposed UK Consortium on Turbulent Reacting Flows will perform high-fidelity computational simulations (i.e. Reynolds Averaged Navier-Stokes simulations (RANS), Large Eddy Simulation (LES) and Direct Numerical Simulations (DNS)) by utilising national High Performance Computing (HPC) resources to address the challenges related to energy through the fundamental physical understanding and modelling of turbulent reacting flows. Engineering applications range from the formulation of reliable fire-safety measures to the design of energy-efficient and environmentally-friendly internal combustion engines and gas turbines.
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