7 November 2013
Cyclone innovation mixes up spraying
New technology allows multiple liquids to be mixed on delivery in spray systems
Product development firm Cambridge Consultants is harnessing the power of a cyclone to better mix and spray liquids.
The new Vortik technology allows different liquids to be mixed at the point of spray without altering the spray characteristics – opening up the possibility of new applications in agriculture, consumer and industrial products, and healthcare.
Conventional atomisers use either a high pressure or high air flow to create a spray. This new fluid handling technology combines low-pressure air and liquid in a specially shaped cyclone chamber. Shear between swirling air and the liquids creates the desired droplet size for spraying.
Simon Smith, associate technology director at Cambridge Consultants, said: “From field to factory – or even in the beauty salon – this cyclonic spray technology will allow greater control of sprays. Farmers will be able to boost yields and reduce waste by more accurate application of pesticides and other products on their fields. The ability to mix liquids on demand in a cyclone chamber will allow instantaneous control over chemical composition.
“In the personal care industry, the spray technology can offer user control – for example, on-demand colour matching in foundation or spray tanning. And the greater control over particle size means less of the spray is breathable – an issue of increasing regulatory concern.”
In the pharmaceutical world, allowing active ingredients to be mixed at the point of delivery overcomes shelf-life and stability issues whilst minimising waste. Example applications are medical adhesives, as well as industrial glue.
Cambridge Consultants will be demonstrating Vortik – along with other technologies to support precision agriculture, such as radar sensors – at the Agritechnica International Exhibition, November 12-15, in Hanover, Germany, hall 17, stand C38.
Facts & figures
- Spraying systems using the Vortik technology will be less prone to blockages as spray nozzle sizes can be larger
- Vortik allows tighter control of concentration and liquids used – ideal for reducing wastage and management of regulated pharmaceutical products
- In agriculture, farmers can control the particle size of spray droplets to reduce drift depending on weather, tractor speed or crop types
- In the personal care industry, smaller particle size sprays will give finer shades and accuracy, and minimise chemicals applied to skin
- The cyclone technology could be combined with real-time sensors to create a new generation of devices – providing, for example, variable skin-tone matching for a uniform spray tan across the body
Cambridge Consultants develops breakthrough products, creates and licenses intellectual property, and provides business consultancy in technology-critical issues for clients worldwide. For more than 50 years, the company has been helping its clients turn business opportunities into commercial successes, whether they are launching first-to-market products, entering new markets or expanding existing markets through the introduction of new technologies. With a team of more than 700 staff, including engineers, scientists, mathematicians and designers, in offices in Cambridge (UK), Boston (USA) and Singapore, Cambridge Consultants offers solutions across a diverse range of industries including medical technology, industrial and consumer products, digital health, oil and gas, and wireless communications.
Cambridge Consultants is part of Altran, a global leader in engineering and R&D services which offers its clients a new way to innovate. Altran works alongside its clients on every link in the value chain of their project, from conception to industrialisation. In 2015, the Altran group generated revenues of €1.945bn. With a headcount of more than 27,000 employees, Altran is present in more than 20 countries. For more information, visit www.altran.com.
PR & Communications Manager
+44 1223 392418
European PR agency
+44 20 3755 6444
US PR agency
+1 617 960 8892