Highways UK has recognised an innovative roadside barrier concept developed by Pilkington United Kingdom Limited, part of the NSG Group, in its Civils and Materials Innovation Awards.
The barrier concept features a special coating that’s able to break down gaseous nitric oxide emissions from road traffic, while its lamination also gives it sound-attenuating properties that help to reduce noise pollution.
The company, which hopes to arrange trials of the barrier, expects the combination of features to have a big impact on the health and wellbeing of communities that live near busy roads and motorways. The concept won the award scheme’s environment category against strong entries from infrastructure giant Balfour Beatty, and road marking specialists WJ-Group. Meanwhile, the barrier’s self-cleaning functionality and hurricane-rated lamination make it a low-maintenance solution for highways authorities. It can also be screen printed with a pattern visible to birds.
While less common in the UK, highway barriers are often used across Europe to help protect against crosswinds. Rory Back, R&D incubator technical manager at the NSG Group, said: “This recognition of our concept ultimately represents the increasingly expansive role that innovative flat glass can play in our built environment.
“Billions are set to be injected into necessary UK infrastructure projects and much-needed housebuilding in the next few years – which is likely to put more of the population living within reach of busy roads.
“Our roadside barrier concept will help infrastructure planners and developers in meeting their obligations to the environment and the wellbeing of the communities they build by.”
The Highways UK recognition marks the manufacturer’s third award in recent months. It scooped two awards at British Glass’ Glass Focus Awards, including Design of the Year for its new antimicrobial glass Pilkington SaniTise™; alongside the Health and Safety award for its wellbeing kiosks designed to protect workers against the risk of COVID-19 transmission.