Innovative Washroom Solutions

Innovative Washroom Solutions

Sustainability and hygiene should be key considerations for businesses looking to keep their public washrooms clean and welcoming for users. A Dyson engineer, discusses how technology plays a vital role in creating the washroom of the future…

What role will smart technology play in future washroom management?

Smart technologies will play a key role in helping washroom managers meet consumer expectations and achieve business objectives around hygiene, sustainability, and design. In many instances, this role is already being fulfilled.

There are three big factors in washroom management: hygiene, which sits firmly within user’s expectations; cost efficiency as a business objective; and sustainability, which is of ever-growing importance to both parties.

The hand drying solutions often found in washrooms can have a big bearing on all three factors. Yet the two common options in many washrooms today are often inadequate at meeting these objectives. They are often outdated hand dryers – which have a poor hygiene and energy performance – and paper towels – which take a huge toll on the environment.

Smart hand drying technologies are engineered to have a positive impact on all three key factors: they bring the highest levels of hygiene to the washroom, enhanced environmental sustainability, and long-term cost efficiency. Their use will see washrooms become cleaner, more hygienic, and more eco-friendly spaces that the public is comfortable using, and far less resource-intensive for washroom managers.

What washroom technology are you most excited about for future buildings?

The most exciting, most innovative washroom technologies of the future will be those that address key washroom challenges faced by both users and facilities managers through a single solution.

In many ways, that future is already here. Combined solutions, such as technologies that automatically switch between water and air allow users to wash and dry their hands seamlessly. They eradicate the need to touch multiple taps and buttons, and minimise the potential spread of airborne particles. And washroom users seem already well aware of the benefits these technologies offer: according to a 2021 survey of over 2,000 UK respondents, of the people who don’t wash their hands frequently, 32% said they would be more likely to wash their hands more often if there was a hand dryer integrated with the sink.

On top of hygiene and ease of use, these combined solutions also have very clear sustainability and cost-efficiency credentials. For example, the Dyson Airblade Wash+Dry hand dryer has a lower environmental impact than other hand drying methods – producing 3.6g of CO2 per dry which is up to 76% less to run than other hand dryers.

Combined solutions also have the added benefits of easing congestion in busy washrooms by enabling users to wash and dry their hands in less time without moving, enhancing washroom safety: users no longer have to walk across the washroom with wet hands before they dry.

Do you have any design predictions for washrooms of the future?

The washrooms of the future will use technologies that are designed and engineered around key user demands. Taking hygiene as an example, recent survey findings tell us that the key features the public are looking for in hand drying are touchless activation, hygienic surfaces that kill bacteria and viruses, and air purifying filters. Touchless activation would reassure 59% of the public when using a hand dryer, hygiene surfaces would reassure 42%, while air purifying filters would make 39% feel more confident when using public washroom amenities.

At Dyson, they’re already incorporating all three key user demands into the design of their hand dryers, and have been for some time. Dyson hand dryers are sensor-operated so touch-free, and use embedded HEPA filtration to purify the air they circulate. Their hand dryers are also made with an antibacterial and antiviral additive applied on their surface to reduce the spread of bacteria and viruses. They have been tested in an external lab according to ISO 22196 against E. coli, Salmonella enterica, Staphylococcus aureus and Klebsiella pneumonia and ISO 21702 against H3N2 (influenza) virus.

How can facilities managers tackle sustainability and waste better in washrooms?

Many washroom facilities persist with hand drying solutions that are contributors to waste.

Consumers are becoming more environmentally aware as the conversation around the climate crisis intensifies, and this has changed their expectations of the products they consume and the technologies they use. As a result, many are aware of the environmental issues that come with commonly used hand drying solutions: 75% of UK respondents to a 2021 survey say they are concerned about the common use of disposable and single use consumables, such as paper towels.

Paper towels are a common way to dry hands, yet they come with significant sustainability concerns. Millions of tonnes of paper towels are used every year, which is made possible by mass deforestation, and they produce huge volumes of waste since used paper towels cannot be recycled. Near the beginning of the supply chain, large volumes of water and chemicals are required to produce the end product. From start to finish, it is a practice that has serious environmental consequences.

Older, outdated hand dryers, on the other hand – which are still found in many washrooms – can be very energy inefficient and as a result, can make a sizeable contribution to a business’s carbon footprint.

Smart hand drying technologies are engineered around eco-efficiency as a fundamental design priority. They outperform outdated, environmentally taxing solutions – some models produce up to 85% fewer CO₂ than paper towels, according to a recent Frontiers in Public Health report. What’s more, many smarter models also cost less to run.

The public is calling out for future-led, innovative hand drying solutions that are engineered to bring the highest levels of hygiene to the washroom and enhance environmental sustainability.

Find out more here > https://www.dyson.co.uk/commercial/overview/architects-designers/

Sources
- Survey conducted in the UK in July 2021 with 2,000 respondents, aged 18 years-old or above. This is part of a global survey done across 20 countries comprising 15,100 respondents in total.
- Read more here: https://www.lb.dyson.com/en-LB/hand-dryers/calculator/calculations.aspx
- As above.
- Survey conducted in the UK in July 2021 with 2,000 respondents, aged 18 years-old or above. This is part of a global survey done across 20 countries comprising 15,100 respondents in total.
- As above.
- Tested in an external lab according to ISO 22196 against E. coli, Salmonella enterica, Staphylococcus aureus and Klebsiella pneumonia and ISO 21702 against H3N2 (influenza) virus.
- Survey conducted in the UK in July 2021 with 2,000 respondents, aged 18 years-old or above. This is part of a global survey done across 20 countries comprising 15,100 respondents in total.
- Read more here: https://www.dyson.co.uk/inside-dyson/sustainability/overview.

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