100 – 3D Laser Scanning Services: Radioactive Waste Management with Innovative Robotics

September 21, 2022
3D Laser Scanning Services: Radioactive Waste Management with Innovative Robotics

Technology Will Help With Safe Disposal

The Virero project is developing a robotic-assisted handling system that can categorize and sort radioactive waste components using 3D laser scanning services technology.

It will enable the safe and efficient disposal of these materials and reduce the risks associated with their handling. The system is expected to be operational within the next few years and will provide a valuable tool for managing radioactive waste.

3D Laser Scanning Services and Radioactive Waste: How It Works

The system will use a combination of sensors and 3D scanning services technology to categorize and sort the waste components. It will be able to identify the type of material and its radioactivity level.

This information will then be used to determine the most appropriate disposal method. The system is being designed to work with a variety of different types of radioactive waste and will be able to handle both solid and liquid materials.

The University of Manchester is leading the Virero project in collaboration with the National Nuclear Laboratory and Sellafield Ltd. It is funded by the Engineering and Physical Sciences Research Council (EPSRC).

The system is expected to have numerous benefits, including reducing the amount of time waste components spend in storage and the risks associated with their handling. It will also provide an important tool for managing radioactive waste in the future.

3D laser scanning is a powerful tool for sorting nuclear waste, as it provides accurate and detailed information about the shape and size of the waste. Companies will use the info to determine the best way to dispose of the trash or recycle it for use in other industries.

3D scanning is also helpful for research, as it can provide scientists with detailed information about the makeup of nuclear waste. The data will help develop new disposal methods or study the effects of nuclear waste on the environment.

The depth camera is used to create a 3D model of the waste, which is then used to generate instructions for the robot arm. In some cases, the depth camera may also be used to provide feedback to the operator, who can then use this information to adjust the position of the robot arm.

The use of a depth camera and 3D scanning offers several advantages over traditional methods of waste manipulation:

  • Depth cameras allow the robot arm to be positioned more accurately, while 3D scanning helps calculate the exact dimensions of the waste.
  • It eliminates the need for the operator to estimate the size and shape of the waste, which can often be tricky.
  • It provides a way for the operator to check that the robot arm is positioned correctly before starting the task.

Related Posts