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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.
Research was undertaken into practical methodologies for integrating disparate engineering design software packages, including techniques for managing data in different formats and package functionality available through varying programming models. There was an emphasis on usability for end users allowing a complex solution to be built without advanced programming experience or technical understanding of the underlying packages. The results were made available through a commercial software package marketed by an SME, successfully contributing to a significant increase in company profile, modified internal working procedures and an expanded portfolio of services available to customers. The final product has only recently appeared on the market, but to good review, promising early sales and projections of significant sales and increased turnover.
Motors are at the heart of all electric machines. World-leading software developed at the Scottish Power Electronics and Electric Drives (SPEED) Laboratory at the University of Glasgow has been used to design thousands of new motors, enabling the manufacture of millions of machines across a range of industrial sectors. From compressors in refrigerators to the motors in power tools, SPEED has improved the design of products manufactured by over 60 companies across the world including Bosch, General Motors, Grundfos and Rolls Royce. In 2011, the SPEED Laboratory was purchased by CD-adapco, the world's largest independent provider of computer-aided engineering simulation software.
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:
Research from the Sheffield Department of Mechanical Engineering has led to major improvements in engineering analysis and design software for aerospace companies such as Rolls-Royce and Airbus. As a result of introducing new practices based on our research, the organisations have reported significantly reduced time input to design components as well as related economic benefits. For example: Rolls-Royce has reported an order of magnitude improvement in the time needed to mesh components. Similarly, by adopting our highly efficient computational aerodynamics solvers, Defence Science & Technology Laboratory has reduced the time its engineers spent evaluating concepts from many days to a few hours.
In late 2010 Professor Sanderson decided to form the Flux ceramics spin-out company at Staffordshire University in order to exploit a significant market gap he had discovered via his KTP research project for Aynsley China Ltd., Stoke-on-Trent. Flux has been able to exploit the market gap discovered in a way that Aynsley China was unwilling to pursue. Flux has produced cutting edge ceramic tableware design that has been successful in terms of both sales and recognition as a valuable contribution to contemporary tableware design. Flux won the Home and Gardens Design Award in 2012.
The i~design research programme, which has been running in the University of Cambridge Department of Engineering (DoEng) since 2000, sought to understand population diversity in order to better inform design decisions for mainstream everyday products and services. Impact from this programme, since 2008, includes: skills embedded in companies through direct training of over 280 designers and design managers from industry; direct involvement in the improved design of more than 10 new products and services that have gone into production; educational resources for teaching Design and Technology trialled in nine secondary schools; over 800 wearable impairment simulators sold; and extensive web-based guidance, methods and tools for inclusive design accessed in over 170 countries.
Design thinking has benefited the economic performance of business and particularly the creative industries, changed awareness of design in everyday life, and informed public policy. Users and consumers have benefited from wider understanding of the genesis of products and services and effects on their quality of life. Design thinking research has been instrumental in forming a new business sector that provides design thinking expertise as consultancy. It has changed the processes of designers and design practices, and fed into UK design education policy. Design thinking has crossed discipline boundaries; for example framing new methods and processes in software engineering.
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]
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.