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TRANSFER: Evaluation and Optimization of Fuel Treatment Effectiveness with an Integrated Experimental/Modeling Approach #2 |
Prof Albert Simeoni
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Infrastructure and Environment |
Over the past ten years, ca. US$ 5.6 billion has been spent on hazardous fuel reduction to treat an average of ca. 2.5 million acres per year across the United States. These expenditures represent one of the primary strategies for the mitigation of catastrophic wildland fire events. At the local scale, the placement and implementation of fuel reduction treatments is complex, involving trade-offs between environmental impacts, threatened and endangered species mitigation, funding, smoke management, parcel ownership, litigation, and weather conditions. Because of the cost and complexity involved, there is a need for implementing treatments in such a way that hazard mitigation, or other management objectives, are optimized.
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TOTALPHOTON: A Total Photon Camera for Molecular Imaging of Live Cells |
Dr Robert Henderson
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Integrated Micro and Nano Systems |
How can we construct a high-resolution camera capable of imaging the time-of-arrival, polarisation and wavelength of each of the maximal 10Gphoton/s emitted from a labelled, biological cell?
Such a measurement would capture the complete information available in the optical signal, and significantly enhance our ability to observe the organisation, movement and interactions of cellular components at molecular scales.
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TIDES: Tidal Demonstration for Energy Scheme |
Professor David Ingram
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Energy Systems |
A full tidal array has not been installed anywhere, commercially to date. A number of the leading turbine manufacturers have part or full scale working prototypes which are under-going testing in various sites the majority of which are enclosed in semi-test environments. In order to move this nascent technology into the commercial arena and expedite market deployment, it is necessary to establish an array of turbines in one site to verify the performance capability and environmental characteristics of a full array.
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TEDDINET: Network of (Build) TEDDI projects |
Professor Gareth Harrison
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Energy Systems |
Established in September 2013 and funded for four years, TEDDINET is a research network examining the interactions of people with digital technologies and the potential for smart metering to transform energy demand in the home and at work. TEDDINET’s primary purpose is to create added value and enhance the impact of 22 individual research projects funded under the ‘Transforming Energy Demand through Digital Innovation’ (TEDDI) and ‘Transforming Energy Demand in Buildings through Digital Innovation’ (BuildTEDDI) programmes. Sponsored by the UK Engineering and Physical Sciences Research Council (EPSRC), these 22 projects encompass 26 (UK) universities, 75 partners from industry and the housing sector, and over 200 researchers from engineering, informatics, design and social sciences.
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TASCC: Pervasive low-TeraHz and Video Sensing for Car Autonomy and Driver Assistance (PATH CAD) |
Prof Bernard Mulgrew
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Imaging, Data and Communications |
This project combines novel low-THz (LTHz) sensor development with advanced video analysis, fusion and cross learning. Using the two streams integrated within the sensing, information and control systems of a modern automobile, we aim to map terrain and identify hazards such as potholes and surface texture changes in all weathers, and to detect and classify other road users (pedestrians, car, cyclists etc.).
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T-MAPPP: Training in Multiscale Analysis of multi-Phase Particulate Processes |
Prof. Jin Ooi
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Infrastructure and Environment |
T-MAPPP is an Initial Training Network funded by FP7 Marie Curie Actions with 10 full partners and 6 associate partners, aiming to train the next generation of researchers who can support and develop the emerging inter- and supra-disciplinary community of Multiscale Analysis (MA) of multi Phase Particulate Processes.
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Sustainable desalination with the implementation of forward osmosis |
Dr Andrea Joana Correia Semiao
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Infrastructure and Environment |
The aim of this study is to investigate the various factors affecting membrane fouling and its reversibility in forward osmosis. Understanding these could advance the optimisation of forward osmosis, which will encourage the implementation of this process prior to reverse osmosis desalination.
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Sustainable Oxidation Processes for the treatment of Pharmaceuticals and Personal Care Products |
Dr Efthalia Chatzisymeon
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Infrastructure and Environment |
My research focuses on the removal of selected micro contaminants and potential Endocrine Disrupting Compounds (EDCs) from water and wastewater by means of the photocatalytic process as well as on the investigation of method’s sustainability.
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SuperGen UK Centre for Marine Energy Reseach |
Prof Robin Wallace
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Energy Systems |
UKCMER is the third phase of EPSRC investment in collaborative wave and tidal energy research. Edinburgh has led all three phases since 2003. There are 13 partner universities in the Centre working together on 15 projects. They work together to ensure joined-up regional, disciplinary and thematic effort to help meet the challenges in accelerating deployment towards and through 2020 targets
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Structural Design of Wave Energy Devices |
Professor David Ingram
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Energy Systems |
The Structural Design of Wave Energy Devices project (SDWED) 2010-2014 is an international research alliance supported by the Danish Council for Strategic Research. The project is a five-year endeavour to harness the energy potential in wave energy at competitive costs.
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