Robotic Manipulation for Nuclear Sort and Segregation
Project reference: 645582
RoMaNS - Robotic Manipulation for Nuclear Sort and Segregation
The RoMaNS (Robotic Manipulation for Nuclear Sort and Segregation) project will advance the state of the art in mixed autonomy for tele-manipulation, to solve a challenging and safety-critical “sort and segregate” industrial problem, driven by urgent market and societal needs.
Cleaning up the past half century of nuclear waste, in the UK alone (mostly at the Sellafield site), represents the largest environmental remediation project in the whole of Europe. Most EU countries face related challenges. Nuclear waste must be “sorted and segregated”, so that low-level waste is placed in low-level storage containers, rather than occupying extremely expensive and resource intensive high-level storage containers and facilities. Many older nuclear sites (>60 years in UK) contain large numbers of legacy storage containers, some of which have contents of mixed contamination levels, and sometimes unknown contents.
A very large number of these legacy waste containers must now be cut open, investigated, and their contents sorted. This can only be done remotely using robots, because of the high levels of radioactive material. Current state-of-the-art practice in the industry, consists of simple tele-operation (e.g. by joystick or teach-pendant). Such an approach may take an extremely long time to grasp and manipulate huge amounts of materials of arbitrary shapes and sizes and consistencies. The RoMaNS project will help to improve the efficiency of these critical nuclear operations, by developing advanced robotics technologies to assist the nuclear operators.
The project will:
1) Develop novel hardware and software solutions for advanced bi-lateral master-slave tele-operation.
2) Develop advanced autonomy methods for highly adaptive automatic grasping and manipulation actions.
3) Combine autonomy and tele-operation methods using state-of-the-art understanding of mixed initiative planning, variable autonomy and shared control approaches.
4) Deliver a TRL 6 demonstration in an industrial plant-representative environment at the UK National Nuclear Lab Workington test facility.
Key features of the project
European Union Horizon 2020 R&D consortium
€6.5 million 3 year R&D project
Beyond state-of-the-art for fundamental robot technology
Applied to nuclear waste sort and segregate processes
Cross-sector applications for asset care, maintenance and decommissioning
List of Partners
University of Birmingham, UK (Lead)
Commissariat a l’energie atomique et aux energies alternatives, France
Technische Universität Darmstadt, Germany
National Nuclear Laboratory, UK