Keele University and Siemens in landmark energy partnership
Keele University has appointed engineering giant, Siemens, to turn the University campus into the largest single, integrated electricity, gas and heat Smart Energy Network Demonstrator (SEND).
It will be the first facility in Europe for at-scale living laboratory research, development and demonstration of new smart energy technologies and services in partnership with business and industry, involving the digitalisation of 24 substations, the installation over 1,500 smart meters, 500 home controllers and a 5 MW renewable integration package.
The Smart Energy Network Demonstrator (SEND) – which is funded by Keele University, the Department for Business, Energy and Industrial Strategy (BEIS), and the European Regional Development Fund (ERDF) as part of the England 2014 to 2020 European Structural and Investment Funds (ESIF) Growth Programme – builds on Keele University’s investment in its energy and other utility networks over many years.
Professor Mark Ormerod, Deputy Vice-Chancellor and Provost of Keele University, commented: “The Smart Energy Network Demonstrator (SEND) is a fantastic example of innovation delivering really tangible results for Keele University, businesses and the wider UK economy, as well as major societal benefits. It puts Keele and our campus at the forefront of the new, more sustainable, energy landscape – the technology being deployed represents a revolution in smart energy technology for UK universities. Keele University is part of the Smart Energy Alliance, along with local partner Stoke-on-Trent City Council, and there is real momentum building in the area for developing intelligent, sustainable and low carbon energy networks as a catalyst for economic growth within the city and beyond.”
Carl Ennis, Managing Director at Siemens Energy Management said: “This landmark project will provide a society-based demonstrator for the research community, the energy industry, and local communities. It will be at the centre of a smart and flexible network of energy supply and storage – which will reduce emissions, improve security of supply to the campus and be open to further innovation from the academic community. We are seeing decentralised energy as a key trend in the UK and are delighted to work with an innovative partner such as Keele University to drive this intelligent energy technology forward.”
The demonstrator will be a representation of 'real world' infrastructures in the UK with a mix of technologies from different suppliers used on site. This will enable a smart analysis of energy consumption for the campus, so that demand can be better managed locally according to factors such as the number of students on site at any one time and energy needs of individual buildings.
The project will also allow businesses to access the University’s unique infrastructure in order to develop and test renewables and smart energy technologies.
The Association for Decentralised Energy Director, Dr Tim Rotheray, added: “When the UK mixes the best of engineering and ingenuity, we see innovative solutions developed. Decentralised smart energy systems, designed with user needs at front of mind, can deliver greater efficiencies, lower emissions and cost savings. The UK is building a strong reputation as an innovative market leader in the smart grid energy revolution and projects such as these clearly demonstrate this reputation is well deserved."