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Platinum Group Elements (PGE) are critical strategic metals because of their unrivalled applications in catalysts, fuel cells and electronics and cancer therapies. Research and analytical methods developed at Cardiff have impacted on exploration for new PGE deposits, and more efficient processing of PGE ores by international mining companies. A key milestone between 2009 and 2012 was the discovery of a 3 billion year old giant impact crater in West Greenland. This discovery is of major economic significance because all craters previously found in this size class are associated with multi-billion dollar mineral and/or hydrocarbon resources. It led to an intellectual property transaction worth CDN$ 2.1 million and discovery of nickel and PGE deposits in Greenland by North American Nickel Incorporated.
Resistivity anomalies resulting from hydrocarbon reservoirs can be located and measured using controlled source electromagnetic (CSEM) techniques. The University of Southampton played a pivotal role in the first full-scale marine CSEM survey over a hydrocarbon target in late 2000. This survey and subsequent work spawned one of the greatest technological advances in the field of oil exploration since the development of 3D seismic techniques. By the end of 2012 over 650 commercial CSEM surveys had been completed worldwide, with annual survey revenues in excess of US$200 million. The University continues to develop impact through consultancy and industry-funded research projects.
Kimberlite research at Bristol has been a collaborative enterprise with De Beers over the past 10 years. The research investigating the geology of kimberlites, and understanding the processes that form them and their associated diamond deposits, has clarified their importance to the diamond mining industry, ensuring high quality geological information informs their commercial activities. The success of this initiative has led to procedures and strategies being changed within De Beers, and led to the mitigation of potential future losses in the form of a decreased risk of failure of a resource model. Typically, such resource models can be valued at between tens and hundreds of millions of pounds.
Our research has had a global impact on understanding the tectonic development and fill of rift basins, providing a predictable spatial and temporal template for the distribution of hydrocarbon reservoir rocks. The models are embedded in exploration workflows of global oil companies and have influenced recent exploration success (North and East Africa, Atlantic conjugate margins). Translational research on 3-D rift basin outcrop data capture and resulting software licencing has improved reservoir modelling, optimising positioning of $100m wells. Field-based training for several hundred oil industry staff since 2005 has ensured in-depth knowledge transfer.
UCL's Deep-Water Research Group (DWRG) creates knowledge transfer between research and the hydrocarbon industry. Oil companies use the DWRG's research results to generate improved in-house computer-generated hydrocarbon reservoir models, allowing them to manage, develop and value their reservoirs better. The same companies also use the research to run training courses for employees, including reservoir engineers and managers, leading to improved understanding and more informed decision-making about the management of hydrocarbon reservoirs. Improved management and development of reservoirs ultimately leads to oil companies being able to extract a greater amount of oil.
Innovative geochemical research led by Selby at Durham has permitted savings of up to $70M in global mineral and petroleum exploration programmes (e.g., Andes of S. America; West of Shetlands oilfields). Selby's research has developed a unique geochemical toolbox using rhenium, osmium, platinum and palladium that constrain more accurate geological models leading to better reserve predictions. The toolbox provides previously unavailable geological time constraints and source identification of resources (e.g., copper, gold, crude oil) that gives mineral and/or petroleum companies an enhanced economic advantage by improving reserve estimates and/or reducing exploration budgets and/or minimising the environmental impacts of exploration.
The University of Southampton's long-term archaeological research at Avebury forms the basis upon which national and international heritage organisations such as the National Trust and UNESCO manage and preserve one of the most important prehistoric landscapes in the world. Local councils have used the research findings to inform their own policy and planning decisions. Research disseminated through museum exhibitions, public engagement events and publications has resulted in increased public interest and understanding of the site, stimulating greater tourism and local economic benefit.
The results of commissioned research by Aberystwyth University (AU) have shaped decision-making that led to the relocation of refugee Roma, Ashkali and Egyptian (RAE) communities in Mitrovica, northern Kosovo. In 2009/2010 AU research unequivocally identified the source of elevated lead (Pb) levels in soils that had been blamed for high infant and adult mortality rates in RAE refugee camps, and established that Roma Mahalla had sufficiently low soil Pb levels to permit the construction of a purpose-built housing development for the RAE communities. Following the relocation of the RAE families to Roma Mahalla in 2010/2011 there has been a significant reduction in blood Pb levels in children with no reported deaths attributable to Pb poisoning. This AU research project has had a demonstrable positive impact on life quality and human health of the resettled RAE communities living in Mitrovica.
Researchers in petroleum geology at the University of Aberdeen have since the mid 1990's been investigating the characteristics and geological context of sand injectites. The geological contexts within which injected sands are discovered have permitted a step change in the production potential in some oil fields (up to c. 1 billion barrels oil), and to define new exploration targets (up to 250 million barrels oil) to make a significant increase to the overall proven reserves of hydrocarbons in any given province (e.g. the North Sea). The findings of this research have been utilised by a number of multinational oil & gas companies to optimise their exploration and field development strategies to maximise the commercial production of hydrocarbons. This case study describes the economic impacts resulting from two projects in particular in the North Sea, the Volund field (Marathon Oil) and the Mariner Field (Statoil) resulting in the enhancement of strategy, operations and management practices; improvements in performance and adoption of new processes; and creation of new employment as a direct result of research facilitating the development of new assets that would otherwise have remained fallow.
Free and open access (OA) to publicly funded research offers significant benefits, but it also requires complex new systems to underpin it. University of Southampton research has resulted in software products enabling large numbers of research institutions to implement their own digital research repositories. Studies on the viability and impact of OA have steered institutions towards a more cost-effective and impactful model for disseminating research, and UK public policy has been directly influenced by the Southampton team's advocacy work. The research also led to economic benefits through two spin-outs and the development of digital archiving techniques, which have been widely used by broadcast and film institutions.