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Durrant's research on the therapeutic potential of literature as a way of working through trauma led to the creation of a unique model of bibliotherapy. The application of this model within three Leeds and Bradford organisations had significant impact on the mental well-being of asylum seekers and refugees and increased the capacity for organisations to provide effective and sustainable therapeutic services. The success of these initiatives led to further public and third-sector collaborations and the model being adopted by a range of health, education, public and charitable organisations both nationally and internationally.
The project combined stakeholder knowledge with natural science to identify future scenarios and adaptation options for uplands. Research into upland ecosystem services identified win-win scenarios (e.g. around carbon management) and important trade-offs (e.g. effects on biodiversity). These were embedded within government policy reports leading to additional work in government departments seeking to overcome policy barriers in these areas in order to implement the recommendations from the research. Overcoming these policy barriers has influenced government's decision to work in partnership to launch a new peatland carbon code, focussing on upland peatlands, creating corporate social responsibility (CSR) options for companies via peatland protection and restoration.
Research into industrial process tomography has been performed at the University of Leeds from 1999 to the present day with much of this being in collaboration with Industrial Tomography Systems plc (ITS). This research, together with the associated intellectual property, has provided the foundation of 5 innovative new products developed and produced by ITS during the eligible period. These new products have generated sales of £5m and are in large part responsible for increases in turnover and employment of approximately 60%, and exports of 67% since 2008. These instruments are used in a significant number of new applications and are generating major benefits to end users in the oil and gas, pharmaceuticals, chemicals, consumer products, minerals and food sectors.
Over the past 10 years there has been a massive expansion in biomass use for power generation, particularly in the UK and Europe. Research at the University of Leeds has been crucial in addressing many of the challenges inherent in moving from coal to biomass including milling, combustion characteristics, deposition and corrosion enabling adoption of biomass for power generation. The research has impacted: (1) company strategy and industry practice for the use of biomass and key technology choices; (2) society, health and environment via CO2 reduction and emission reduction; (3) national energy security through an increased fuel inventory; (4) UK Government and EU policy as expert members of advisory groups.
Surface water runoff in urban areas makes a significant contribution to pollution of lakes and rivers, but historically is poorly addressed in catchment models. The School of Geography (SoG) developed a Geographic Information System (GIS) model and supporting database to quantify urban source area loadings of 18 common and priority pollutants. This knowledge improves catchment models and supports impact assessment and mitigation planning by environment managers. The research has been exploited on behalf of the Department for Energy, Food and Rural Affairs (DEFRA), the Welsh Assembly, and the UK water industry (UK Water Industry Research — UKWIR, and United Utilities). The research has had three distinct impacts: 1) its use addressing EU Water Framework Directive obligations; 2) its on-going influence on construction industry guidance; and 3) the commercialisation of its stormwater pollutant coefficient database for Sustainable Urban Drainage Systems (SUDS) planning software.
Research led by the School of Geography at the University of Leeds has enabled, for the first time, the use of on-the-ground observations to evaluate directly the role of tropical forests in the global carbon cycle and to assess their sensitivity to change. Findings from the research have had a significant impact on international debates on the future trajectory of climate change and appropriate policy responses, and are influencing national-scale efforts across the tropics to manage forests in the face of climate change and to reduce carbon emissions resulting from deforestation [D, E, G, H, J]. The success of this Leeds-led initiative has been achieved through the extensive network of scientists involved in this global forest observatory: more than 250 scientists from over 50 institutions across more than 30 countries are now involved.
Research into on-line control of crystallisation at the University of Leeds started in 2002 which led to a collaboration being formed with Malvern Instruments Ltd (MIL) in 2006 and subsequently to the development of a new type of instrument capable of measuring particle shape and shape- distribution. The instrument range, Morphologi, launched in 2007 has since generated sales for MIL of approximately £11 million since January 2008. The instrument is now operational within many industrial sectors and used e.g. to optimise process efficiency and enhance product quality. The success of this instrument has contributed to providing secure employment at MIL and to obtaining the "Queen's Awards for Enterprise: International Trade" in 2011.
The water industry sources significant drinking waters from peatland catchments and faces major water discolouration problems due to dissolved organic carbon (DOC) caused by peat degradation. DOC has to be removed to meet strictly regulated drinking water standards and to eliminate disinfection by-products. One proven, but expensive industry solution uses Magnetic Ion Exchange (MIEX) at treatment works. Research at the School of Geography (SoG) investigated catchment management as a potentially longer term, more sustainable treatment solution that addresses the problem at source. Yorkshire Water (YW) has subsequently adopted recommended practices, and has invested [text removed for publication] in catchment solutions yielding wider environmental benefits.
The quality of estimates in the 2000s of immigration to local authority areas in England needed radical improvement. School of Geography (SoG) researchers Rees and Boden developed a method, based on administrative data including NHS Patient, National Insurance and Higher Education records, to improve the accuracy of immigration estimates. The research had a direct impact on the Office for National Statistics (ONS), which adopted and further developed the method for annual estimates of local immigration statistics. These are used as inputs to mid-year population estimates and projections, which play an important role in formulae for allocating funds to local authorities and health bodies.
Spatial models developed from research in the School of Geography about population movements in cities are informing commercial planning and public policy analysis. The conduit for this impact is GMAP Ltd., a spin-out company established by the University of Leeds, which has used the models as the basis for its MicroVision and RetailVision software. Companies including Ford, Exxon, HBoS and Asda-Walmart have used this software for a range of purposes including maximizing individual stores' profitability and reconfiguring entire networks to fit changing market conditions. Government agencies have also used the software to optimize resource allocation in policing, education and healthcare.