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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.
3D scanning technology has enabled multiple opportunities for innovation in diverse areas such as manufacturing, design, and the arts. However, full utilisation of this technology requires not just the scanning hardware, but accompanying software that can build meaningful, editable models. This development has been pioneered by research conducted in the School of Computer Science and Informatics, at Cardiff University. Innovative algorithms for reverse engineering and digital shape reconstruction were devised that enabled the reconstruction of complex computer aided design (CAD) models from data captured by 3D scanners. The algorithms have been endorsed by Geomagic Inc, a market leading American software corporation (recently acquired by 3D Systems), that has subsidiaries in Europe and Asia and global distributors, and incorporated into their software product suite. This is accessed by nearly 10,000 licensed users worldwide, who have applied the product for industrial applications including aerospace and automotive engineering, product design, cultural heritage preservation, and healthcare. Accordingly, the impacts claimed are twofold: a) economic gain manifesting in the benefits to Geomagic and a plethora of end users who have utilised the software, b) impact on practitioners and professional services in diverse domains.
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.
Enhanced structural geology models of complex fractured reservoirs, utilising new virtual- and field-based techniques developed at Durham, have been applied by industry in the Faroe- Shetland region, N Britain and helped sanction development of the 8 billion barrel Clair Ridge project, a £4.5 billion investment by the Clair Joint Venture Group (BP, Shell, ConocoPhillips, Chevron). Geospatial Research Ltd (a spin-out launched in 2004) has additionally used Durham structural geology research methodologies and expertise to provide > £1.3 million of consultancy services to the global hydrocarbon industry creating, since 2008, 12 new highly skilled jobs.
A new family of antiviral agents, bicyclic nucleoside analogues (BCNAs), discovered in Cardiff University has led to a highly potent anti-VZV (shingles) molecule, FV-100. On a worldwide basis more than two million patients are affected by shingles annually. FV-100 has successfully completed Phase II clinical trials, showing it is safe, potent and effective and with clinical advantages over the current standard of care. FV-100 has received more than $30 million in R&D investment, generating patents and creating highly skilled jobs in the UK and the USA, with the parent company currently valued at $397 million. It will enter registration trials in late 2013.
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.
We have formulated and executed an extensive public engagement and outreach programme based on our leading technical and scientific involvement in the Herschel Space Observatory, a €1 billion astronomical satellite which was launched in 2009 and operated until April 2013. Herschel observed the Universe at far-infrared and submillimetre wavelengths with three scientific instruments, one of which (SPIRE) was built by an international team led by the Cardiff Astronomy Instrumentation Group, and Cardiff astronomers have been at the forefront in scientific use of Herschel and SPIRE. The beneficiaries of our PR and outreach programme include schoolchildren teachers, the media and the general public. The programme has achieved high exposure and impact locally, nationally and internationally. It provides inspirational personal contact and up-to- date material and information which has stimulated widespread and continuing interest in Herschel and also helped to raise the profile of STEM subjects, ultimately benefiting the economy.
Cardiff University's research has provided quantitative characterisation of transient fuel sprays under engine condition for the first time. This has enabled integrated design optimisation of Gasoline Direct injection (GDi) engines, through computer simulation validated by Cardiff's experimental measurements. The method has been developed and used in collaboration with Ricardo, a world-leading engine design consultancy, and has resulted in:
Economic impact
Environmental impact There have been substantial reductions in global CO2 emissions. Prior to 2012, GDi engine production had resulted in over 20M tonnes CO2 reduction globally, including 10M tonnes across Europe. A global reduction of 10M tonnes/year is predicted by 2020. Gasoline engines designed or developed by Ricardo in collaboration with Cardiff have provided a considerable contribution to this reduction. Cardiff's measurement techniques provided an essential step in designing these engines. For example, the PETRONAS engine uses 20% less fuel and produces 80% less NOx.
Improved Professional Engineering Practice Cardiff's experimental validation methodology has enabled Ricardo to design engines through simulation rather than step-wise empirical development, significantly reducing lead time.
Economic impact is claimed through the growth of the biopharmaceutical spin-out company Q Chip Ltd. During the REF period, this has created 19 new jobs, £7.5M investment, a new Dutch subsidiary (Q Chip BV), and staged-payment, six figure contract sales to four major international pharmaceutical companies.
Q Chip has generated over £928K in contract sales from the pharmaceutical industry from 2008-2012, with further sales of over £1M projected in 2013-14.
Originally established by Professor David Barrow in 2003 from his micro technology research, Q Chip has developed new processes and miniaturised equipment to encapsulate materials, including drugs, within uniform polymeric microspheres as injectable therapeutics.
Research into the quantification and reduction of geological uncertainty has directly resulted in changes to UK government policy relating to the subsurface as a geological resource. Through Prof Shipton's membership of the Royal Society/Royal Academy of Engineering (Joint Academies) expert working group on risks associated with shale gas extraction in the UK, her research has informed the Department of Energy and Climate Change on ways to calculate and mitigate the risk of seismicity and associated undesirable fluid flow. The Joint Academies report resulted in the lifting of the UK Government embargo on fracking in Dec 2012, allowing exploration for shale gas in the UK to resume, with associated economic and societal benefits of an enhanced UK gas resource. Prof Lunn's membership of the UK Government Committee for Radioactive Waste Management (CoRWM) (2008-present) has resulted in her research informing the substantial changes made to the siting policy for UK radioactive waste disposal from February 2013.