On the Use of Robust Command Shaping for Vibration Reduction During Remote Handling of Large Components in Tokamak Devices

S. Grazioso, G. Gironimo
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引用次数: 2

Abstract

This paper proposes to use robust command shaping methods for reducing the vibrations during remote handling of in-vessel components. The need of deriving efficient vibration control strategies for a safe transportation of large and heavy pay-loads during maintenance procedures in nuclear fusion reactors is the main motivation behind this work. The approach shapes the reference motion command to the component such that the vibratory modes of the system are canceled. We perform the dynamic simulations of a large in-vessel component of the DEMOnstrating fusion power reactor during a remote handling operation. The simulations shows that the method is a possible solution to reduce the vibrations induced by the motion, in both the transient and residual phases. The benefits introduced by command shaping make the method promising towards building control framework for remote handling of in-vessel components in various tokamak devices.
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基于鲁棒指令整形的托卡马克装置大型部件远程处理减振研究
本文提出了一种鲁棒指令整形方法,以减少远程装卸船内部件时的振动。在核聚变反应堆的维护过程中,需要得到有效的振动控制策略,以确保大型和重型有效载荷的安全运输,这是这项工作背后的主要动机。该方法对元件形成参考运动命令,从而取消系统的振动模式。在远程处理操作期间,我们对演示核聚变动力反应堆的大型容器内组件进行了动态模拟。仿真结果表明,该方法可以有效地减小瞬态和残余相位运动引起的振动。命令整形带来的好处使该方法有望建立远程处理各种托卡马克装置中容器内部件的控制框架。
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