A Nuclear Decommissioning Manipulator with Novel Variable Impedance Actuator

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Title
A Nuclear Decommissioning Manipulator with Novel Variable Impedance Actuator

CoPED ID
add6a311-0a68-4db1-b0f3-f3e5a2a8eebe

Status
Active


Value
£1,987,545

Start Date
Nov. 1, 2021

End Date
Sept. 30, 2024

Description

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With the ageing of nuclear facilities such as those in the Sellafield nuclear site in the UK, or the relatively recent disaster that occurred in the Fukushima Daiichi power plant in Japan, nuclear decommissioning is a major challenge that needs to be addressed in the 21st century. Innovative decommissioning technologies can assist in minimizing the risks and costs in tackling these complex challenges. More particularly, robotics solutions have already shown their potential, through several exploration missions, to monitor the conditions in Fukushima and mapping radiation sources in the Sellafield nuclear site. However, only a few dedicated robotic manipulators have been developed to contribute to the decommissioning tasks. Due to the radiation and the environmental uncertainties, standard robotic manipulators used in industrial applications are unsuitable for decommissioning scenarios.

In this project, we propose a robotic solution to aid in the clean-up of the primary containment vessel in Fukushima, and dismantling and decommissioning operations in Sellafield. We will develop a robotic manipulator based on a novel Variable Impedance Actuator (VIA) and employ artificial intelligence techniques for efficient exploration and decommissioning in nuclear environments. In contrast to existing VIAs which require sensors in the region of interaction and use feedback control strategies to modify the robot's impedance, we propose a novel Continuously Variable Transmissions(CVT) based Variable Impedance Actuator for an inherently collision-safe manipulator that can adapt to uncertain environments without additional interaction sensors. To fully capitalize on the manipulator's ability to change its impedance, new navigation and control strategies will be developed to perform remote handling tasks and a dedicated impedance controller will be designed to adapt the dynamic interaction behaviour of the robot according to the situation. The VIA, the manipulator and associated control strategies will finally be validated in realistic use-case scenarios representative of the Sellafield and Fukushima challenges.

This robotic solution will help to address the challenges associated with limited sensor availability due to radiation hazards and will allow us to safely conduct tasks in sensitive environments owing to the inherent collision safely offered by the VIA. This solution also offers resilience in events of communication and sensor failure or during mis-operation in teleoperation protocols, further de-risking robotic manipulation in the clean-up and decommissioning tasks in Fukushima and Sellafield respectively.

Romeo Glovnea PI_PER
Nicolas Herzig COI_PER
Yanan Li COI_PER
Hareesh Godaba COI_PER

Subjects by relevance
  1. Nuclear power plants
  2. Robots
  3. Robotics
  4. Decommissioning
  5. Fukushima
  6. Automation
  7. Nuclear energy
  8. Radioactive waste

Extracted key phrases
  1. Novel Variable Impedance Actuator
  2. Nuclear Decommissioning Manipulator
  3. Novel Continuously Variable Transmissions(CVT
  4. Sellafield nuclear site
  5. Dedicated robotic manipulator
  6. Standard robotic manipulator
  7. Nuclear decommissioning
  8. Robotic solution
  9. Nuclear environment
  10. Nuclear facility
  11. Fukushima challenge
  12. Fukushima Daiichi power plant
  13. Robotic manipulation
  14. Decommissioning task
  15. Safe manipulator

Related Pages

UKRI project entry

UK Project Locations