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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.
Work by LSHTM researchers has led to a greater understanding of Plasmodium malaria parasite species and contributed new methodologies for diagnosis. As a result, patients with the uncommon species P. knowlesi and many hundreds with P. ovale spp. have been correctly diagnosed by polymerase chain reaction (PCR), and the rapid detection of parasite DNA is revolutionising clinical trial design. The work has led to the successful commercialisation of a low-cost, easy-to-use malaria testing kit for use in developing countries. Through media outputs and further research, the work has taken awareness of the issues surrounding malaria diagnostics to an international audience.
The Imperial College Pile `ICP' effective-stress pile design approaches for offshore foundations offer much better design reliability than conventional methods. Their use delivers substantial economies in many hydrocarbon and renewable energy projects, better safety and confidence in developing adventurous structures in others. The ICP has enabled production in otherwise unviable marginal hydrocarbon fields, new options in high-value deep-water projects and helped eliminate installation failures that can cost hundreds of £million. We present evidence that the research delivered direct benefits exceeding £400m since 2008 in projects known to us, with larger worldwide benefits through project risk reduction and independent exploitation.
This work has established the Alliance as a world leader in impactful research into equitable urban land development in Sub-Saharan Africa, especially Angola and Mozambique. For instance, in collaboration with the Angolan NGO, Development Workshop, its policy-influencing findings have been transferred into "real changes in [the] practice of land management" in five Angolan provinces, including the country's most populous. The research has underpinned training for stakeholders from over 40 municipalities in 15 provinces and the upscaling of pilot projects to city-wide programmes including the foundation of new companies (e.g. Navimbuando Ltd., the only firm of its kind in central Angola). To widen interest in the most recent research in Mozambique (described by [text removed for publication] a World Bank funded programme in Maputo as "a milestone in the field of informal settlement studies") a documentary was made, which has already been screened, or selected for screening, in 20 countries in Africa and Europe.
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.
Economic gains by oil and gas companies, improvements in professional practice in hydrocarbon exploration, and environmental benefits from identifying CO2 disposal sites have been achieved through a Cardiff-led consortium with industry. Building on research carried out since 2004, ten of the largest oil companies in the World have contributed to and benefited from understanding how faulted caprocks behave under specific geological conditions. Research at Cardiff has shown which families of faults and fractures make caprocks highly permeable, thus improving Industry's ability to predict if caprocks are able to prevent oil and gas reaching the surface.
Professor Mark Duffield's research on the relationship between development and security has had a significant impact on the understandings and work of practitioners in many agencies worldwide, including the United Nations High Commissioner for Refugees (UNHCR), Médecins sans Frontières (MSF), the UK Department for International Development (DfID), the Norwegian Refugee Council (NRC), the World Food Programme (WFP), and the non-governmental organisations (NGOs) Independent Diplomat in South Sudan and the Enough Project against genocide and other crimes against humanity.