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New concepts in the 3-dimensional nature of blood flow improving the treatment of people with peripheral vascular disease and requiring haemodialysis.

Summary of the impact

Commercialisation: Through government grants, institutional and private investors, a medical devices company (Vascular Flow Technologies) was founded.

Products: Spiral Laminar Flow™ Vascular Grafts for use in bypass for peripheral arterial disease and vascular access for haemodialysis.

Market / Sales: Spiral Laminar Flow™ Grafts are sold in 18 countries, with over 3000 grafts implanted (<1% estimated market size) and sales in excess of £1million.

Patient Outcomes: Published and presented clinical series show the grafts have increased survival rates leading to reduced re-interventions and reduced amputations.

Submitting Institution

University of Dundee

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Medical and Health Sciences: Cardiorespiratory Medicine and Haematology, Medical Physiology

Bristol research helps reduce the threat to people and property from snow avalanches

Summary of the impact

Research carried out in the School of Mathematics at the University of Bristol between 1998 and 2005 has been instrumental in the development of structures that arrest or deflect the rapid flow of snow that characterises avalanches in mountainous regions of the world. The research has been embodied in a series of guidance documents for engineers on the design of such structures and many defence dams and barriers have been built across Europe since 2008. The guidance is now adopted as standard practice in many of the countries that experience avalanches. Investment in avalanche defence projects based on the design principles set out in the guidance runs into tens of millions of pounds. The Bristol research is also used internationally in the training of engineers who specialise in avalanche protection schemes. Given the scale of the threat to life and property from these potent natural hazards, the impact of the research is considerable in terms of the societal and economic benefits derived from the reduction of the risk posed by snow avalanches.

Submitting Institution

University of Bristol

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Environmental

Research Subject Area(s)

Engineering: Civil Engineering, Resources Engineering and Extractive Metallurgy, Interdisciplinary Engineering

Millions of people worldwide and leading companies benefit from novel approach to developing and evaluating products designed to protect against tooth-wear and dentine hypersensitivity

Summary of the impact

Dentine hypersensitivity manifests as daily, transient, arresting tooth pain in 40% of adults. Pain is caused by toothbrush abrasion and dietary acid erosion, which combine to wear teeth, expose dentine and open dentine tubules.

For 20 years, Bristol's Dental Clinical Trials Unit has worked in partnership with industrial sponsors to develop a dental model to evaluate products designed to protect teeth from erosion and abrasion, and to test whether new toothpastes block dentine tubules, thereby reducing pain from sensitive teeth. This model is used by researchers worldwide and is the "gold standard". New toothpastes launched by GSK, Colgate, Unilever and P&G between 2008 and 2013, tested with the dental model, demonstrably reduce dentine hypersensitivity. These toothpastes are sold in advanced and emerging markets in over 100 countries, with sales of £5bn in 2012.

Submitting Institution

University of Bristol

Unit of Assessment

Allied Health Professions, Dentistry, Nursing and Pharmacy

Summary Impact Type

Health

Research Subject Area(s)

Medical and Health Sciences: Dentistry

Advanced fluid flow modelling improves the efficiency of industrial burners

Summary of the impact

Using advanced mathematics and numerical modelling we have demonstrated how fundamental understanding of laminar-turbulent transitions in fluid flows can save energy. From 2008 we helped the cleantech company, Maxsys Fuel Systems Ltd, to understand and improve their technology and demonstrate to customers how it can reduce fuel use by 5-8%. Customers including Ford Motor, Dow Chemical and Findus testify to the impact from financial savings and reduced carbon emissions obtained by installing Maxsys products on industrial burners used widely in many industrial sectors including automotive, bulk chemicals and food. In 2010, Selas Heat Technology Company bought the Maxsys brand to invest in this success.

Submitting Institution

Aston University

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Applied Mathematics
Engineering: Interdisciplinary Engineering

17. Improving the Aerodynamic Performance of Formula One Racing Cars

Summary of the impact

Since the 1970's the influence of aerodynamics on racing car design has risen substantially, and now in the modern era it is seen as one of the most important factors in producing a race-winning car. Research carried out in the Department of Aeronautics at Imperial College London, into flow control techniques and the development of cutting-edge numerical and experimental methods has allowed specific and significant improvements in the aerodynamic design of Formula One racing cars. This has led to reduced lap times and a more competitive racing environment. These advances have also contributed to improving handling, resulting in a safer racing environment. This research has provided the Formula One industry, which has an estimated annual turnover of $2 billion, with a means to employ engineers who have the key knowledge and insights that allow them to continue to innovate in a tightly controlled engineering environment. The Chief Designer or Chief Aerodynamicist in six out of the twelve 2012 F1 teams have carried out relevant research at Imperial College London.

Submitting Institution

Imperial College London

Unit of Assessment

Aeronautical, Mechanical, Chemical and Manufacturing Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Interdisciplinary Engineering

13. Increased safety and efficiency of oil and gas process designs from improved flow assurance

Summary of the impact

Multiphase flow research at Imperial has developed bespoke software code, and provided unique data for validation of commercial codes used for oil-and-gas design. This research has enabled global oil companies (e.g. Chevron) to undertake successfully the design of deep-water production systems requiring multi-billion pound capital investments. This research has also allowed SPT Group (now owned by Schlumberger), one of the largest software (OLGA) providers to the oil industry, to maintain their position as market leaders.

Submitting Institution

Imperial College London

Unit of Assessment

Aeronautical, Mechanical, Chemical and Manufacturing Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Chemical Engineering, Resources Engineering and Extractive Metallurgy, Interdisciplinary Engineering

Electrostatic measurement of pulverised fuel flow

Summary of the impact

Coal fired power stations will be a major element of global power generation for the foreseeable future. Measurement, and hence control, of pulverised fuel flow is a vital technology for the efficient and green operation of coal fired power stations. Balancing fuel delivery and combustion stoichiometry increases boiler efficiency and reduces emissions. Research in this area carried out at Teesside University was adopted by ABB Ltd and led to the commercial development of new powder flow measurement systems (PfMaster technology) installed in power stations around the world. Quantifiable economic benefits of the installations to date amount to >£3.4 M with concomitant environmental benefits of significant reduction in CO2 and NOxemissions and solid waste disposal burdens.

Submitting Institution

Teesside University

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Chemical Engineering, Interdisciplinary Engineering

Development of spin out company OSspray Ltd to investigate treatment of dental hypersensitivity

Summary of the impact

Dental hypersensitivity is a major problem for over half the population in the developed world. Researchers at the Dental Institute of King's College London (KCL) have developed a system to use bioactive glass powders to clean, seal and desensitize teeth, thus alleviating dental pain. As a result, a spinout company — OSspray — was formed in 2004 to develop and commercialise the system for dentists and hygienist to spray-clean teeth. Over £4.5 million of funding has been raised to date from institutional and venture capital investors and three product lines have been launched in the past 24 months. The products developed by the KCL/OSspray team have treated over 700,000 patients across the EU, USA and Asia. The knowledge gained by the KCL-based founders of OSspray has been used to train students in Innovation Technology.

Submitting Institution

King's College London

Unit of Assessment

Allied Health Professions, Dentistry, Nursing and Pharmacy

Summary Impact Type

Technological

Research Subject Area(s)

Medical and Health Sciences: Dentistry, Pharmacology and Pharmaceutical Sciences

Innovative Tunnel Backfill by Pneumatic Conveying of Dry Particulate Materials.

Summary of the impact

Research at GCU led to a novel method for backfilling pipeline tunnels providing the ability to fill tunnels three times more quickly than the traditional method resulting in a cost saving of £1.5M on a single project. This approach is now best practice at Murphy Pipelines Ltd (MPL) and features in current tenders to a value of £30M. The change in fill material lowered the carbon footprint by 5000 tonnes in a CEEQUAL award winning project, in addition, the removable fill material allows the recycling and re-use of tunnels, adding to the assets of the company and reducing costs.

Submitting Institution

Glasgow Caledonian University

Unit of Assessment

General Engineering

Summary Impact Type

Economic

Research Subject Area(s)

Engineering: Chemical Engineering, Resources Engineering and Extractive Metallurgy, Interdisciplinary Engineering

Improving Fluid Delivery in Abrasive Machining

Summary of the impact

Work and tool temperature are major issues in abrasive machining. Cooling fluids, usually oil based, are used to control these temperatures. This research aimed to achieve much more effective use of coolant. The established industrial practice was to use very high volumes of oil, under very high pressures. This is an expensive and environmentally unfriendly approach. This research improved coolant flow quality by improving nozzle design and established the underlying physics to improve penetration of coolant into the cutting zone. It then went on to show that it was not only possible, but sometimes it may actually be beneficial, to dramatically reduce coolant flow volume by a factor of up to 20,000. Before industry would adopt these ideas it was necessary to have firm scientific evidence of their validity. This research by the General Engineering Research Institute (GERI) provided that foundation and has led to successful adoption by industry, which has in turn led to both economic and environmental impact. This case study will evidence industrial take-up via specific examples and shows that GERI's research in this area has had a global impact on the training of industrial engineers employing the grinding process.

Submitting Institution

Liverpool John Moores University

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Manufacturing Engineering, Interdisciplinary Engineering

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