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The Building Performance Centre at Edinburgh Napier University led by Professor Sean Smith was the first to research `robust details' for sound insulation during 2001-2004. This resulted in a government consultation, new regulatory approach, higher quality of life for home occupants, multi-stakeholder engagement and knowledge exchange via a Design Handbook with 4,700 subscribers. Since 2008, over 300,000 robust detail homes have been built, noise complaints have fallen four-fold, site compliance rates have shifted from 35% to 99%, Smith leads a European 32-country robust design group and 16 patented products are manufactured in the UK.
Enhanced public safety and transformation of structural design for fire has resulted from improved building design through ERPE researchers' development of new and unique design methodologies, frameworks and tools for analysing fire spread. Fire safety engineering research within ERPE has created an improved scientific understanding of the effect of fire on structures and materials. Structural and fire safety engineers across UK, EU, USA, Canada as well as those who are members of international fire safety bodies have subsequently implemented significant advances for the design of safer, more economical, sustainable, and architecturally innovative buildings.
ERPE research has thus assisted the design and construction of increasingly optimised, sustainable, and economical buildings globally with significant changes in building design and regulation, particularly during 2009-2013.
As academic lead partner Professor Ogden and his team at Oxford Brookes University were responsible for a major research programme focusing on the development of light steel construction technology. Major industry funding in conjunction with EU support, facilitated a detailed understanding of the technology, and various demonstration projects including the then largest light steel framed building in Europe, constructed at Oxford Brookes University. The results of the work have been adopted by industry in order to innovate novel construction solutions. As a consequence light steel framing is now the favoured method of construction across the entire modular off-site buildings sector and in other mass market construction applications including site-built structural framing and infill walling. The value of the market that that has emerged in the UK during the census period is estimated to be £78 million per annum.
Over the past 13 years the University of Bath has been leading research into low-impact bio-based construction materials, including the construction and testing of two full-scale prototype buildings: BaleHaus (2009) and HemPod (2010) built on campus. The research has directly promoted: the development and wider market acceptance of award winning low carbon construction products (ModCell® and Hemcrete®); successful delivery of award winning buildings; and the wider sector uptake of these technologies, including in a new school building in Bath. The work has directly benefited industry partners working to meet UK Government policy requirements to deliver low carbon infrastructure and benefited society through the delivery of affordable sustainable buildings.