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Look at a map of the world and find the Shetland Islands. Follow the 60 degrees north latitude circle eastwards. You pass through St. Petersburg, the Ural Mountains, Siberia, the Bering Sea, Alaska, northern Canada, the southern tip of Greenland, then back to the Shetlands. All these places are cold, harsh environments, particularly in winter, except the Shetlands, which is wet and windy but quite mild all year. This is because in the UK we benefit from heat brought northwards by the Atlantic Ocean in a current called the Conveyor Belt. This current is driven by surface water being made to sink by the extreme cold in and around the Arctic. It returns southwards through the Atlantic at great depths. Scientists think it is possible that the Conveyor Belt could slow down or stop, and if it did, the UK would get much colder. We know the planet has been warming for the last century or more, and we think this is due to the Greenhouse Effect. Burning fossil fuels puts a lot of carbon dioxide into the atmosphere, which stops heat from leaving the Earth, like the glass in a greenhouse. In a warming world, ice melts faster, and there is a lot of ice on the Earth: ice caps on Greenland and Antarctica, sea ice in the Arctic and Antarctic Oceans, glaciers in high mountains. And we know that the Arctic is the fastest-warming part of the planet. This causes extra amounts of fresh water to flow into the oceans. Now this fresh water can affect the Conveyor Belt by acting like a lid of water too light to sink, so the Conveyor Belt stops. What is the chance of this happening? We do not know, because there is much we do not understand about how the Arctic Ocean works. You need a powerful icebreaker to get into the Arctic Ocean, and that's only really possible in the summer, because in winter the sea ice thickens and the weather is bad. Scientists all over the world agree that the Arctic Ocean is important because it contains a lot of freshwater, which is why, although it is difficult to make measurements in the Arctic, the UK's Natural Environment Research Council has decided to fund a programme of scientific research in the Arctic. We want to be able to make better predictions of how the Arctic climate will change during the 21st century, so this project will help improve our ability to make these predictions. We will do this by improving the way that computer models of the Earth's climate represent the Arctic. We are going to treat the Arctic Ocean as a box, with a top, a bottom, sides and an interior, and we're going to examine all these parts of the box using measurements from space, from ships, from instruments moored to the sea bed, and from robotic sensors attached to drifting sea ice. We'll use all these measurements together to improve the scientific equations within the computer models, and then we'll run the models into the future to create better predictions not just of the Arctic, but of how changes in the Arctic might influence UK, European and global climate. With better predictions, we can make better plans for the future.

In the UK there are more than four billion square metres of roofs and facades forming the building envelope. Most of this could potentially be used for harvesting solar energy and yet it covers less than 1.8 % of the UK land area. The shared vision for SPECIFIC is develop affordable large area solar collectors which can replace standard roofs and generate over one third of the UK's total target renewable energy by 2020 (10.8 GW peak and 19 TWh) reducing CO2 output by 6 million tonnes per year. This will be achieved with an annual production of 20 million m2 by 2020 equating to less than 0.5% of the available roof and wall area. SPECIFIC will realise this by quickly developing practical functional coated materials on metals and glass that can be manufactured by industry in large volumes to produce, store and release energy at point of use. These products will be suitable for fitting on both new and existing buildings which is important since 50% of the UKs current CO2 emissions come from the built environment.The key focus for SPECIFIC will be to accelerate the commercialisation of IP, knowledge and expertise held between the University partners (Swansea, ICL, Bath, Glyndwr, and Bangor) and UK based industry in three key areas of electricity generation from solar energy (photovoltaics), heat generation (solar thermal) and storage/controlled release. The combination of functionality will be achieved through applying functional coatings to metal and glass surfaces. Critical to this success is the active involvement in the Centre of the steel giant Corus/Tata and the glass manufacturer Pilkington. These two materials dominate the facings of the building stock and are surfaces which can be engineered. In addition major chemical companies (BASF and Akzo Nobel as two examples) and specialist suppliers to the emerging PV industry (e.g. Dyesol) are involved in the project giving it both academic depth and industrial relevance. To maximise open innovation colleagues from industry will be based SPECIFIC some permanently and some part time. SPECIFIC Technologists will also have secondments to partner University and Industry research and development facilities.SPECIFIC will combine three thriving research groups at Swansea with an equipment armoury of some 3.9m into one shared facility. SPECIFIC has also been supported with an equipment grant of 1.2 million from the Welsh Assembly Government. This will be used to build a dedicated modular roll to roll coating facility with a variety of coating and curing functions which can be used to scale up and trial successful technology at the pre-industrial scale. This facility will be run and operated by three experienced line technicians on secondment from industry. The modular coating line compliments equipment at Glyndwr for scaling up conducting oxide deposition, at CPi for barrier film development and at Pilkington for continuous application of materials to float glass giving the grouping unrivalled capability in functional coating. SPECIFIC is a unique business opportunity bridging a technology gap, delivering affordable novel macro-scale micro-generation, making a major contribution to UK renewable energy targets and creating a new export opportunity for off grid power in the developing world. It will ultimately generate thousands high technology jobs within a green manufacturing sector, creating a sustainable international centre of excellence in functional coatings where multi-sector applications are developed for next generation manufacturing.