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Improving Public Understanding of the Effects of Aircraft Noise

Summary of the impact

Research undertaken at the University of Manchester (UoM) considers the association between aircraft noise, human health and everyday life. In partnership with an eminent Japanese acoustic scientist, the issue of noise emanating out of the Kadena US airbase (Okinawa Island) and Tokyo Narita Airport was addressed through the creation of an innovative exhibition. The key impact is that local government officials in Japan used the exhibition to enhance their own and citizen groups' understanding of acoustic science. This has helped to breach a long-standing impasse in negotiations over aircraft noise, involving citizens, local authorities, the military and the private sector. In addition, the research has been utilised by the makers of a leading sound-monitoring device (Nittobo), and the multimedia exhibition has been displayed and discussed outside Japan.

Submitting Institution

University of Manchester

Unit of Assessment

Anthropology and Development Studies

Summary Impact Type

Societal

Research Subject Area(s)

Engineering: Mechanical Engineering
Medical and Health Sciences: Neurosciences, Public Health and Health Services

Identification and Active Control of Multiple Sources of Sound

Summary of the impact

Work at the Institute of Sound and Vibration Research (ISVR) has led to a sophisticated new understanding of a number of multiple-input multiple-output (MIMO) problems in acoustics. The effects are wide ranging, attracting heavyweight industry sponsors and driving valuable new innovations in home entertainment, construction, aviation and defence. In particular, research has led to the deployment of new "active" methods for controlling noise and vibration within aircraft. Systems have been installed in over 200 propeller aircraft since January 2008, giving a total number of 1000 aircraft treated to date and benefitting 177 million passengers worldwide. Noise reduction systems based on patents resulting from the unique ISVR methods are being developed for maritime use by BAE Systems. The underpinning science has significantly cut the cost of noise tests on Rolls-Royce jet engines, saving US$4 million to date and reducing their environmental impact. It has led to the development of mass-produced systems for living-room 3D sound, global sales of which have reached US$7.2 million.

Submitting Institution

University of Southampton

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Mechanical Engineering
Technology: Communications Technologies
Medical and Health Sciences: Neurosciences

Catalysing the Clinical Application of High-Field Magnetic Resonance Imaging (MRI)

Summary of the impact

Nottingham researchers constructed the world's first 3T MRI scanner, thus demonstrating the viability and benefits of high-field MRI. This provided a stimulus for magnet and MRI system manufacturers to develop 3T scanners, which have now become established as the standard platform for high-end clinical MRI studies. We estimate that since 2008: 2500 3T scanners have been installed, representing a global investment of $5 billion;and 30-40 million patient examinations have been performed with 3T MRI scanners. Technical advances which underpinned the Nottingham 3T scanner also impacted on the development of functional MRI, thus opening up a new field of medical research and clinical application. In a subsequent phase of research, the Nottingham group developed ultra-high (7T) magnetic MRI in partnership with PhiIips; forty 7T MRI scanners (current unit cost >$10M) have now been installed across the world.

Submitting Institution

University of Nottingham

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Other Physical Sciences
Engineering: Biomedical Engineering
Medical and Health Sciences: Neurosciences

Optimising Gradient and Shim Coils for Next-Generation Magnetic Resonance Imaging Systems

Summary of the impact

Theoretical and computational methods for optimising the design of gradient and shim coils with arbitrary shapes and topologies were developed in collaboration with Magnex Scientific as part of a CASE award (2004-07). The resulting software was licenced to Agilent (who now own Magnex Scientific), for whom it has opened up new market opportunities in the supply of novel magnetic resonance imaging systems, leading to £3.4M sales since 2009. The software has also been used by Paramed Medical Systems to improve their `open' magnetic resonance imaging systems, which are optimised for orthopaedic imaging, allow vertical subject posture, and facilitate image-guided treatment, as well as offering a better patient experience. Our work has thus resulted in impact in the economy and healthcare.

Submitting Institution

University of Nottingham

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Other Physical Sciences
Engineering: Biomedical Engineering
Medical and Health Sciences: Neurosciences

Sustainable strategies for noise mitigation through improved assessment of noise impact and enhanced design of noise barriers

Summary of the impact

Research at the University of Bradford has resulted in more accurate and efficient predictions of traffic sound propagation and faster determination of sound reflection effects, enabling more effective design and positioning of noise barriers. Software derived from our research is used in 40 countries to map traffic noise and plan evidence-based targeting of Noise Reduction Devices (NRDs), thus increasing efficiency and sustainability. Beneficiaries include the public, through improved quality of life from reduced noise pollution from transport and wind turbine sound, and governments and public administrations through policy tools to influence noise management. The reach of our research is demonstrated by its incorporation into national and EU-wide policy and guidance on sustainability in design and use of NRDs.

Submitting Institution

University of Bradford

Unit of Assessment

Civil and Construction Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Statistics
Engineering: Mechanical Engineering
Economics: Applied Economics

Leading the way in aircraft noise reduction

Summary of the impact

Research at the University of Southampton's Airbus Noise Technology Centre (ANTC) and the Rolls-Royce University Technology Centre (UTC) in Gas Turbine Noise has given Airbus and Rolls-Royce tools to understand, predict and reduce noise pollution from commercial aircraft, ensuring that they are on track to meet the EU's stringent noise reduction targets, and maintaining their competitive edge over key rivals Boeing, GE and Pratt and Whitney. The implementation of new low-noise technology from Southampton has already begun to benefit the millions of people who live near our busiest airports (250,000 within the inner 57dBA Leq contour at Heathrow alone).

Submitting Institution

University of Southampton

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Information and Computing Sciences: Artificial Intelligence and Image Processing
Engineering: Mechanical Engineering, Interdisciplinary Engineering

Enhancing civil and public understanding of environmental noise propagation

Summary of the impact

Research carried out in UCL's Department of Mathematics addresses the accurate coupling of acoustic source fields to noise propagation models, for the determination of far-field environmental noise exposure. The work has increased understanding of issues related to noise propagation from infrastructure including roads and wind turbines, in the UK and internationally. For example, it has led to changes in thinking about freeway noise mitigation strategies at Arizona Department of Transportation (ADOT), discussion of concerns about the UK's assessment of noise propagation from wind turbines by the Institute of Acoustics, and improved understanding of sound-related issues associated with a gas compressor station in the southwestern US that are of interest to local Indian tribes. The research also stimulated interest and discourse by groups and individuals including the Acoustic Ecology Institute in the US, a community group in Germany, Washington State Department of Transportation, the US Federal Aviation Administration, and an artist based in Berlin.

Submitting Institution

University College London

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Classical Physics
Engineering: Mechanical Engineering, Interdisciplinary Engineering

Sanitary Soundscapes: listener-centred approach to the noise effects of ultra-rapid hand dryers on vulnerable subgroups

Summary of the impact

In research that challenges the dichotomy of music/ noise, Drever has investigated the properties and subjective effects of the high volumes produced by ultrafast hand dryers, finding that it is highly aversive for vulnerable groups including people with dementia, sensory impairments, and autistic spectrum disorders, in some cases exacerbating their social avoidance. These effects have been communicated to the public, industry professionals, and policymakers through a combination of creative art works and presentations of the research findings in varied public settings. They have been widely reported in the international media, via both general interest and specialist publications and programmes. He has worked closely with the UK's Noise Abatement Society and with industrial designers, who have welcomed his input to helping them improve hand dryer design.

Submitting Institution

Goldsmiths' College

Unit of Assessment

Music, Drama, Dance and Performing Arts

Summary Impact Type

Societal

Research Subject Area(s)

Medical and Health Sciences: Neurosciences, Public Health and Health Services

Developing tools and products for designing better urban sound environments

Summary of the impact

Theoretical and experimental research on urban sound environments has been carried out by Professor Kang and his team at the University of Sheffield since 1999. This includes acoustic theories and models for urban sound propagation, soundscape theory and framework, and acoustic theories for sustainable building elements. Consequently, they have developed design guides/ tools that have become common standards in professional practice; invented sustainable low-noise products that have led to commercial outputs; organised networks and workshops that have set up the practice agenda for designing better urban sound environments; and delivered keynote presentations to international audiences of planning professionals and government policy-making organisations.

Submitting Institution

University of Sheffield

Unit of Assessment

Architecture, Built Environment and Planning

Summary Impact Type

Political

Research Subject Area(s)

Mathematical Sciences: Statistics
Environmental Sciences: Environmental Science and Management
Built Environment and Design: Design Practice and Management

The reduction of sound from aircraft engines

Summary of the impact

In response to many EU directives (e.g. 89/629/EEC, 2002/30/EC), and to the threat of financial penalties, the aircraft industry has long considered it a matter of the utmost importance to develop tools for the reduction of aircraft noise. Chapman's ray theory of aeroengine noise, created and developed in 1994-2000, provided such a tool. The impact of this work has extended through aircraft industry giants such as Rolls-Royce to consumers and the general public worldwide, because of its influence on the design of quieter aircraft.

Following application of the same theory to broadband underwater acoustics, the impact now extends to the government's plans for the next generation of nuclear submarines. This is a £25 billion project to design and build the Successor class, to replace the Vanguard class of Trident submarines. Chapman's ray theory has been used in the current Assessment Phase leading to Main Gate in 2016, when the Government will decide on production.

Submitting Institution

Keele University

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Astronomical and Space Sciences
Engineering: Mechanical Engineering, Interdisciplinary Engineering

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