Major Advancements in Drone Technology Lead to 3D Site Mapping and Safety Innovations
August 8, 2023
4 minute ReadWhile much focus has been on AI in recent months, there have been major advancements in what is possible with drone technology.The story below is about safety and nuclear site mapping leveraging drones, but consider that you could also map your wash site leveraging 3D technology, and then find ways to maximize site flow and safety for your washes. Perhaps, even, by leveraging AI and machine learning technologies as we’ve seen from companies like omniX and Spot.AI. Read the full story below.
Drone pilots have successfully completed two flight firsts on a UK nuclear site leading the way to increased safety of employees during decommissioning.
The successful deployment of the Elios 3 drone equipped with a LiDAR sensor marks a major milestone for the Unmanned Aerial Vehicle (UAV) team, enabling Sellafield Ltd to achieve unparalleled efficiency in mapping and 3D modeling.
Hot on the heels of this first flight the team then successfully flew the Elios 3 drone with a RAD (Radiation Activity Detection) dosimeter which they hope will allow them to map radiation hotspots in areas before other colleagues go into unused areas of the site.
Amanda Smith, UAV Equipment Programme Lead, based at Sellafield Ltd’s Engineering Centre of Excellence in Cleator Moor, highlighted the safety and financial benefits of deploying a drone for the mapping.
"We are thrilled that this first flight of Elios 3 with the LiDAR payload was a success and the data collected is now being processed in a Computer Aided Design system which will produce a 3D model of the area in question, helping to inform engineering decisions going forwards,” said Smith. “Sending a drone into this tight and unused space rather than an employee in the first instance reduces risk, and also saves time and money.”
“The team put a lot of work into making sure they were fully prepared for this flight. There are building plans they can study and try to work out the best route for the drone to take. However, these plans are decades old and, as in this case, the pilot encountered obstacles we weren't expecting. The access into the area was also tighter than expected.”
“He had to adapt to the changing circumstances incredibly quickly as he only had eight minutes of battery power to get into the area, map it with the equipment, and get out again,” said Smith. “We always have two pilots on every flight as even though it is a short flight the levels of concentration required by the pilot are extremely high and at Sellafield, we want to ensure the safety of our pilots and the equipment.”
“The flights can be very intense, and, in this case, there was pipework everywhere,” said Sam Jay, UAV equipment engineer and chief pilot. “The drones fly in a cage with sensors so if they do happen to touch anything they won’t be damaged. The hardest part is remembering your way out again. In such a short space of time, you need to get in and out quickly. There can be a lot of pressure as not getting the drone out and having to send someone in after it would defeat the point of the flight.”
“Now that we have scanned the area the engineers can design scaffolding before they go to unblock a pipe which has been causing an issue in this particular area,” said Jay. “By deploying the drone and speeding up the process we have potentially saved the company, and the taxpayer, hundreds of thousands of pounds.”
Buoyed by the success of this flight, Sellafield made history again this month as the first UK nuclear site to employ a drone equipped with a radiation monitor. This innovative addition aims to assess radiation levels and identify potential hot spots in areas where radiation exposure levels are unknown.
The deployment of the drone with a radiation payload demonstrates the organization's commitment to exploring innovative solutions for radiation assessment, reducing risk to those working on the site.
“By flying with a radiation monitor we hope to be able to provide a map of radiation hotspots within areas to assess where it may or may not be safe for colleagues to enter,” said Smith.
“The first flight was a great success but there are many safety checks to go through before we can rely on the data we obtain,” said Tom Calverley, radiometric physicist seconded to the UAV team.
“We must ensure that the readings are accurate and once we have confidence in the numbers from the dose readings it can help with planning jobs and other radiation monitoring applications,” said Calverley. “We take exposure to radiation extremely seriously on the site and we carefully plan and minimize any exposure that colleagues may face as part of their job.”
“Our acceptable levels of exposure are well below what the regulators say is safe. What we hope the drones will do is pinpoint any changes in dose readings within an area. If there are significant changes, we can then explore why that might be. There is significant testing to do before we can have confidence in the readings. We are going to be testing the drone in a controlled environment by exposing it to varying dose profiles. This testing will give us confidence in our understanding of the radiometric performance of the combined system.”
“We must validate what manufacturers tell us as employee safety is our number one priority,” said Calverley. “But this is undoubtedly a huge step forward and could make a massive difference to how we operate and keep our staff safe on site.”
By leveraging the capabilities of its fleet of drones Sellafield Ltd embraces the future of aerial exploration, improving nuclear site safety and achieving efficiencies.