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The work described here has impacted on European policy and standards concerning energy efficiency in Building Services.
The impact arises from two Welsh School of Architecture led and European Commission funded projects, HARMONAC (focussed on inspection of air-conditioning systems) and iSERV (focussed on automatic system monitoring and feedback). These pan-European projects demonstrate achieved energy savings of up to 33% of total building electricity use in individual buildings, and potential savings up to €60Bn. These projects demonstrably impacted the recast European Energy Performance of Buildings Directive (EPBD) and the revision of EU Standards (European Committee for Standardisation (CEN)).
Climate change will have a profound impact on built environment performance over the next 50 years. More severe flooding and overheating will lead to more obsolete buildings and premature mortality across the UK and Europe. The research team explored the issues surrounding adaptation of the built environment to climate change, and developed a new model of built asset management that integrates adaptation decision making into the building life cycle. The model is being used by facilities managers and surveyors to produce long term asset management plans, and by central and local government policy makers to inform and develop adaptation strategies.
The adoption of hydrogen and fuel cell systems provides one solution to fossil fuel depletion, security of energy supplies and sustainability concerns. However, safety is a key technological barrier to the hydrogen economy. The technological impact of this case study is the adoption of research outcomes, from work undertaken by the Hydrogen Safety Engineering and Research centre (HySAFER), Built Environment Research Institute into international regulations, codes, and standards (namely Commission Regulation (EU) No.406/2010, and the international ISO/TR15916), and development of novel safety strategies, guidance, protocols, and engineering solutions supported by significant external research funding.
This case study presents a dynamic development framework route-map (the Precinct Planning Design Standard, PPDS) that enhances sustainability and the delivery of a development's goals, aims, and objectives for medium-large mixed-use precinct developments and tourist resorts in developing countries. The standard shortens pre-planning timescales, achieves greater certainty in actual performance delivery and reduces environmental impact for developers, developments, and their infrastructure.
Through Earthcheck Pty PPDS is now commercially available and has been used to benchmark and certify ecological performance improvements of 30 Asia Pacific projects (US$ 25 billion development value). These range from 8,000 person community projects to medium sized tourism resorts and island developments. Our research has challenged existing standards and consequently influenced practitioners to rethink and improve the efficacy of their development processes.
This case study concerns the long term (energy) sustainability of emerging winemaking regions. Underpinning research in energy efficiency and renewable technologies informs the case study in determining energy usage and benchmarks, development of energy guidelines/policy, implementation by national professional bodies and adoption of energy best practice by the local industry. Impact is through the adoption and application of benchmarks by winemaking associations, directly influencing (through policy, regulations and standards) the energy expended in making wine. The study is underpinned by international publishing accolades (Solar Energy `Best Full Length Paper in Photovoltaics', Mondol et al, 2005) and a highly prestigious personal Royal Academy of Engineering Global Research Award to Smyth.
Interdisciplinary research by the Centre for Architecture and the Visual Arts (CAVA), based in the School of Architecture, is on the role of the moving image in the culture and identity of cities. By examining historic film, current trends and future developments in city branding and digital imaging, a new field of research has developed with three types of beneficiary: (1) institutions (museums and galleries); (2) municipal authorities (planning/urban development departments); (3) inhabitants of and visitors to cities. Liverpool's European Capital of Culture programme (2008) formed the basis of the research, which has spread nationally (London/Battersea) and internationally (China).
The impact of building acoustics research by the Acoustics Research Unit at Liverpool has been through knowledge transfer into Standardisation, guidance to industry and take-up by test laboratories. This is evidenced by the active and leading participation of Professor Gibbs and Dr Hopkins on International and European Standards committees, developing measurement and prediction methods for noise in buildings. The research provides the scientific basis of new test codes used by accredited test laboratories and acoustic consultants. It is also feeding into new test procedures developed by R&D teams of Boeing, Seattle, for the control of vibration-induced noise in aircraft.
This study presents the impact of research by Plymouth's Environmental Building Group (EBG) and Centre for Earthen Architecture (CEA) on industry and regulatory bodies. These interconnected groups research the manufacture, construction, preservation and performance (thermal, hygral and acoustic) of new and old buildings of diverse construction, including earth, straw-bale and hemp-lime. EBG/CEA research has impacted the energy consumption of 690+ homeowners (21st Century Living; DECC/Eden) and contributed to national standards for construction and conservation (BRE/DEBA/English Heritage). Industry partnerships/projects include: Zero Carbon House, Kevin McCabe Ltd; Carfrae Sustainable Design; Hukseflux; Cornish Lime Company.
The Cambridge University Centre for Risk in the Built Environment (CURBE) investigates techniques to identify, monitor and assess risk. Since 1997, CURBE's research contributed to real- world applications that reduce detrimental impacts of natural and manmade hazards, including the recent Haiti earthquake. Collaborators and users of the underpinning research include the British Council, the Government Office for Science, the US Geological Survey and Federal Emergency Management Agency in the USA, UN Habitat and private modellers and insurance companies involved in risk such as Risk Management Solutions and Willis Re.
Research carried out at the University of Greenwich has explored issues surrounding sustainable living and climate change mitigation in existing buildings. The research identified the relationships between people and the built environment and developed a series of behavioural interventions to inform building users of the energy they were consuming and provide guidance on how this could be reduced. The socio-technical relationships were used in a public engagement programme to promote debate amongst the over-65s and the interventions by Registered Social Landlords to support behaviour change and reduce energy consumption in domestic buildings. The outputs have also been used to inform Social Housing policy development.