Coventry University researchers are hoping to save lives through a new device they have developed to prevent vehicles from aquaplaning and losing traction due to adverse road conditions.
Professor Mike Blundell and Ravi Ranjan from Coventry University’s Research Centre for Future Transport and Cities have produced the Run Dry Traction System (RDTS) following a two-year research project.
The prototype product aims to prevent aquaplaning and loss of traction in a variety of road conditions. Aquaplaning, also referred to as hydroplaning, happens when a layer of surface water builds up between a vehicle’s tyres and the road surface, leading to a complete loss of grip. The university said this can occur with as little as two millimetres of standing water on the road surface when vehicles are travelling at a variety of speeds and is a leading cause of road traffic accidents.
The RDTS presents a potential solution to aquaplaning and the loss of traction by preventing water and other contaminants from reaching the tyre. The device works by firing a jet of compressed gas close to the front of the wheel, removing surface water in front of the tyre, ensuring the vehicle has a dry patch of road ahead. This effectively ensures grip is not compromised by road contaminants such as water, sand, and gravel.
“Our tests demonstrate that RDTS has the potential to make a huge impact on vehicle safety in a whole host of conditions,” said Blundell. “The prospect of producing something that could even save lives on the road is extremely exciting and after some initial success with testing, we’re now eager to look into manufacturing potential and further research to take this concept to the next level.
“A device like this really could be the difference between life and death if it can help vehicles to stop safely within certain distances and that’s why we’re so keen to continue developing this concept.”
Coventry University said the RDTS has been designed to be fitted to a wide range of vehicles including cars, buses, trucks and motorcycles. With further development, it could potentially be used to improve aircraft ground operations and rail transport safety.