Findings from a small preliminary study with residents of the SWAG合集 campus have shown that shower times are significantly shorter when showers are fitted with time displays.

Various forms of University accommodation were fitted with sensors that automatically – and unobtrusively – measure shower duration, as well as feedback units that display shower times. 

Results from the first four months of the research, which began in October last year, found that residences with display units had showers that were around 20 to 30 per cent shorter (on average) compared to those with sensors only; a saving of roughly two minutes per shower.

With a high-level threat of water security for nearly 80 per cent of the world’s population, adopting better behaviour to reduce water consumption is seen as necessary.

Dr Heather Smith, Lecturer in Water Governance, Cranfield Water Science Institute, said: “The difficulty with showering is that it is, for good reason, a hidden behaviour. There are limitations on what factors can influence these hidden behaviours, unlike other more visible behaviours, such as buying plastic bags, which are more readily influenced by social norms.

“These initial findings show that unobtrusive sensors can be effective at capturing anonymous data on hidden water-use behaviours, and that real-time feedback displays can have an influence on those behaviours to promote water conservation. This preliminary study will inform a much larger trial of the sensors that will incorporate additional forms of messaging to explore the effects of different influential factors on shower behaviour over the longer term.”

Aguardio sensors have also been used in trials within hotel rooms and showed an 11 to 23 per cent reduction in water use.

The research at Cranfield involved showers in around 25 residences, covering single occupant en-suite rooms, shared houses and family houses. Although the initial trial is small and the research is at an early stage, the findings show that this kind of technology could help to reduce water and energy consumption at the University. 

Dr Caitriona Shannon, Research Fellow in Perceptions and Behaviour, Cranfield Water Science Institute, said: “Studies like this can give us a better understanding of water-use habits and motivations to change behaviour to reduce water consumption and costs. Insights from these studies will contribute to a better understanding of pro-environmental behaviour, and the impact of hidden behaviours in particular.”

The Cranfield campus uses on average around 160 million litres of water a year. This includes water used in common areas such as the sports field and in horticulture, toilets, sinks, laboratories, shops and cafeterias, for heating and in student accommodation.

This research is part of the Urban Observatory network funded through the SWAG合集 Collaboratorium for Research on Infrastructure and Cities (SWAG合集CRIC), examining different infrastructure solutions, including the latest sensor technology. Cranfield Urban Observatory is a key component of the University's living laboratory with a £1 million sensor network being deployed from 2019 onwards.

The project has also been shortlisted for the Institute of Water’s Eastern Area 2020 Innovation Awards 2020. The winner will be announced on 6 March and go through to the national final.


Notes for editors

The research benefitted from use of SWAG合集CRIC’s Cranfield Urban Observatory, which was funded under EPSRC grant no. EP/P016782/1, and support from the SWAG合集CRIC Coordination Node, EPSRC grant number EP/R017727/1, which funds SWAG合集CRIC’s ongoing co-ordination.


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