Micro-scale energy storage for super-efficient wet appliances

4774fbb8-3c85-4041-8e4b-da0585085e79

Closed

EPSRC
EPSRC
EPSRC
EPSRC
EPSRC

£502,845

March 31, 2017

Oct. 30, 2018

In this project we will develop a novel technology to achieve 50% energy saving in dishwashers and washer-dryers compared to the conventional appliances by using energy and water storage in porous materials. Although these household units may seem an unlikely source of substantial environmental impact, their omnipresence makes them an important target for further energy optimization and carbon footprint reduction. In fact, the adoption of the proposed technology on global scale would enable mitigation of the equivalent CO2 emitted by 2.5 large coal power stations. This project not only offers an opportunity to test emerging classes of porous materials in the context of novel applications, and understand fundamental issues associated with their application, but also to initiate actual technological deployment of the outcomes by inviting key international industrial partners.
Nowadays, adsorption materials are produced in massive quantities only when the economy of scale, combined with the technology readiness level, make profitable their industrial production. This happens only for few specific applications. However, the dishwasher and washer-dryer appliance sector has the necessary scale to make synthesis and investment in new efficient materials worthwhile, giving momentum also to material science research.

Potential Impact:
Beneficiaries of the projects are householders who directly pay energy bills, enterprises producing wet appliances, and the scientific community working in the energy efficiency and materials areas. Impact target is improving energy efficiency of the UK economy through the engagement of key industrial manufacturers and householders in meetings to promote adoption of the research findings and move to higher technology readiness level. At scientific level, research groups working on sustainable technologies, and material science are targeted to provide these groups with a platform to test their materials in new industrial applications.
To reach a broader audience, we will inform the general public on the outcomes of the project through an international media campaign. Along with this, special posts will be released on professional media, targeting specific professional Groups such as Energy Storage World Forum, UK Renewable Energy Network and CleanTech.