Log in
Work by Carmona et al has supported the national drive for better design in the built environment, helping to mainstream ideas about the importance of urban design and develop tools for design governance. A major strand of this research has focused on the use and potential of design codes in England, and has been a major contributor to their widespread adoption. As a result, by 2012, some 45% of local authorities and 66% of urban design consultants had used design codes.
The development of a novel 3D inverse design method for turbomachinery aerodynamic design at UCL has led to important design breakthroughs for pump and compressor applications. The resulting IP and software has been commercialised by a UCL spinout company Advanced Design Technology Ltd (ADT), which is now considered a global leader in advanced turbomachinery design software. Since 2008, the 3D inverse design codes embedded within ADT's TURBOdesign™ suite of software have been adopted by many of the leading turbomachinery equipment manufacturers in Europe, Japan and the US. These companies are using the TURBOdesign suite to achieve significant improvements in the time taken to design their turbomachinery components. It has also helped them unlock major efficiency gains and hence achieve a reduction in CO2 emissions. [text removed for publication]
Compressors developed at the Department of Engineering Science have formed a key component of the cryocoolers used to cool the infra-red sensors on satellites. Their low mass has trimmed almost $250k from the cost of individual satellite missions. Sixty seven have been sold to date, with sales totalling £2.8M between January 2008 and July 2013; three units are currently in Earth orbit with another nine planned to follow in 2014. A specialised version has been developed to achieve extremely low temperatures, with prototypes already built for the Mid Infra-Red Instrument (MIRI) that will form part of the James Webb Space Telescope.
The impact relates to improved productivity, operational efficiency, working practice and knowledge management within the European maritime industry through the use of a Virtual Integration Platform (VIP). The platform is a software package developed within the University of Strathclyde that has been used by eleven European ship design, engineering and project management consultancies, which specialise in the application of advanced computational design, analysis and physical modelling techniques within projects on an international scale. Specific company benefits of using the VIP include: 67% reduction in process time; guaranteed data consistency; additional productivity of 15 hours/day from automated over-night operation; capturing and reuse of expertise; cost effectiveness (lack of data consistency typically costs €100k per project); and ease of operation within complex design processes.
Research conducted since July 2008 by the University of East London in collaboration with Control Techniques Dynamics (CTD), a leading manufacturer of Permanent Magnet Synchronous Motors (PMSMs), has led to the development of a software tool called the PMSM analyser. This tool has helped CTD to improve its motor design methodology by incorporating electromagnetic, thermal and cost models, together with genetic algorithms. In turn, the design optimisation allowed CTD to enhance motor performance and reduce manufacturing time by 30-40%, leading to an increase of 20% in company sales between 2008 and 2013. During the same period the company was able to cut materials usage by 15%.
Marine biofouling is caused by the adhesion of macroalgae, microbial slimes and other marine organisms for instance barnacles to underwater surfaces, such as ships hulls. The research from the Bioadhesion and Biofouling Research Group (BBRG) that tackles this important problem has had a direct impact on commerce, with three new companies entering the marine coatings industry and a fourth achieving superior effectiveness from their existing product line. All have been able to develop novel products (with associated patents) positioned to address the requirements of an increasingly-stringent environmental legislative framework, seeking to reduce or eliminate the impact of toxic biocides on non-target species in the marine environment. In addition, some of these companies have enjoyed increased investments in their R&D programmes and proven market advantage over their competitors.
Research work in the University of Cambridge Department of Engineering (DoEng) created a formal methodology for eco-design, based on lifecycle thinking that can be implemented during product design. This methodology and supporting reference data have been commercialised by DoEng spin-off company, Granta Design Limited, within Granta's software solutions: for engineering and product design in industry, integrating with the CAD environment; and for materials education. These products are incorporated in software suites that have over 200,000 users. Industry case studies demonstrate their value to end customers.
Research at Kingston University led by Hilary Dalke has established the beneficial effects of colour design for application in long-term health care environments for people with neural disabilities. This work has led to the development of spatial design principles for improving the experience of service users, patients and staff.
Through her consultancy work with architectural firms, individual NHS hospitals, mental health units, independent charities and healthcare furniture and equipment suppliers such as Hill-Rom, Dalke has influenced their understanding of the issues involved, leading to improved design in hospitals, care homes and day centres, with consequent benefits for patients, staff and visitors in four institutions.
Gage's research in interactive architecture since the 1990s has influenced the working methods of a sizeable community of SME architectural and environmental design practices, mainly in London, and in some cases significantly extended the scope of their services. The research has established and strengthened innovative exchange between academia, professions and creative industries and led to the creation of a number of new specialist and award-winning design companies with international profiles. One of these developed intellectual property sold in 2011 for over $15m, while another won a RIBA National Award for design excellence in collaboration with Bartlett staff.
Between 1992 and 2002, Loughborough University invented an award-winning approach to planning complex, highly interdependent development projects. Since 2008 the Analytical Design Planning Technique (ADePT) method has resulted in: