Screw-based dynamics of a serial/parallel flexible manipulator for DEMO blanket remote handling

Remote handling of heavy in-vessel components inside nuclear fusion reactors requires the use of large robotic mechanisms, whose numerical analysis is highly complex. As a matter of fact, these robots are subject to large deformations, either induced by the geometric configuration of their mechanica...

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Published inFusion engineering and design Vol. 139; pp. 39 - 46
Main Authors Grazioso, Stanislao, Di Gironimo, Giuseppe, Iglesias, Daniel, Siciliano, Bruno
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.02.2019
Elsevier Science Ltd
Subjects
Blankets (fusion reactors)
Computer simulation
Control equipment
Deformation mechanisms
DEMO
Finite element method
Flexible bodies
Flexible manipulators
Fusion reactors
Handling equipment
Lie groups
Maneuvers
Materials handling
Mathematical models
Mechanical properties
Nuclear fusion
Nuclear fusion reactors
Nuclear power plants
Nuclear reactor components
Nuclear reactors
Numerical analysis
Payloads
Remote control
Remote handling
Remote maintenance
Robot arms
Robot dynamics
Robotics
Tokamak
Flexible manipulators
Tokamak
Remote maintenance
Robot dynamics
DEMO
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Abstract Remote handling of heavy in-vessel components inside nuclear fusion reactors requires the use of large robotic mechanisms, whose numerical analysis is highly complex. As a matter of fact, these robots are subject to large deformations, either induced by the geometric configuration of their mechanical structure or by the heavy payloads they usually transport. This work was motivated by the need of deriving physical-based predictive models able to simulate the mechanical behavior of such large robotic mechanisms, while performing dynamic tasks. The method formulates the dynamics of robotic manipulators on a Lie group, and uses a finite element procedure to discretize the flexible bodies. The method is applied to a complex mechanism, the serial/parallel flexible manipulator which has been recently selected for DEMO blanket remote handling. The case studies investigated in this paper involve the simulations of this manipulator while handling the inboard and outboard blanket segments according to the sequence of maneuvers planned for their removal processes from the vessel. The results show that such dynamic simulations could give useful information for design, analysis and control of remote handling equipment. The generality of the method makes this approach prone to be easily used in simulating the dynamics of other flexible manipulators for remote handling of large in-vessel components inside nuclear fusion reactors.
AbstractList Remote handling of heavy in-vessel components inside nuclear fusion reactors requires the use of large robotic mechanisms, whose numerical analysis is highly complex. As a matter of fact, these robots are subject to large deformations, either induced by the geometric configuration of their mechanical structure or by the heavy payloads they usually transport. This work was motivated by the need of deriving physical-based predictive models able to simulate the mechanical behavior of such large robotic mechanisms, while performing dynamic tasks. The method formulates the dynamics of robotic manipulators on a Lie group, and uses a finite element procedure to discretize the flexible bodies. The method is applied to a complex mechanism, the serial/parallel flexible manipulator which has been recently selected for DEMO blanket remote handling. The case studies investigated in this paper involve the simulations of this manipulator while handling the inboard and outboard blanket segments according to the sequence of maneuvers planned for their removal processes from the vessel. The results show that such dynamic simulations could give useful information for design, analysis and control of remote handling equipment. The generality of the method makes this approach prone to be easily used in simulating the dynamics of other flexible manipulators for remote handling of large in-vessel components inside nuclear fusion reactors.
Author Grazioso, Stanislao
Di Gironimo, Giuseppe
Iglesias, Daniel
Siciliano, Bruno
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  organization: CREATE/University of Naples Federico II, P.le Tecchio 80, 80125 Napoli, Italy
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Tokamak
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Robot dynamics
DEMO
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  year: 2018
  ident: 10.1016/j.fusengdes.2018.12.029_bib0065
  article-title: Analytic solutions for the static equilibrium configurations of externally loaded cantilever soft robotic arms
  publication-title: 2018 IEEE International Conference on Soft Robotics (RoboSoft), IEEE
  doi: 10.1109/ROBOSOFT.2018.8404910
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Snippet Remote handling of heavy in-vessel components inside nuclear fusion reactors requires the use of large robotic mechanisms, whose numerical analysis is highly...
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SubjectTerms Blankets (fusion reactors)
Computer simulation
Control equipment
Deformation mechanisms
DEMO
Finite element method
Flexible bodies
Flexible manipulators
Fusion reactors
Handling equipment
Lie groups
Maneuvers
Materials handling
Mathematical models
Mechanical properties
Nuclear fusion
Nuclear fusion reactors
Nuclear power plants
Nuclear reactor components
Nuclear reactors
Numerical analysis
Payloads
Remote control
Remote handling
Remote maintenance
Robot arms
Robot dynamics
Robotics
Tokamak
Title Screw-based dynamics of a serial/parallel flexible manipulator for DEMO blanket remote handling
URI https://dx.doi.org/10.1016/j.fusengdes.2018.12.029
https://www.proquest.com/docview/2186793059
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