首页> 外文期刊>Fusion Engineering and Design >A perspective on equipment design for fusion remote handling
【24h】

A perspective on equipment design for fusion remote handling

机译:融合远程处理设备设计的观点

获取原文
获取原文并翻译 | 示例
       

摘要

The successful operation of the JET remote handling facility has been directly attributable to the design processes adopted for the remote handling equipment and experimental components. The authors report here on the experience they have gained and future advances in technology they believe could benefit the maintenance of fusion machines. The approach to the provision of remote handling equipment has been the preferred use of commercially-off-the-shelf equipment. In the areas of electrical, electronic, software and control this approach has been generally achievable. However, mechanical equipment has been almost entirely bespoke as its requirements are highly sensitive to the design of the JET components and the in-vessel access conditions and environmental compatibility. Hence. JET has required the design and manufacture of over 700 special types of remote handling equipment. This paper discusses the experience of introducing and developing remote handling mechanical equipment for JET and covers the relationship between the remote handling equipment and the JET component design and the potential for improving the design function. A major lesson from the introduction of remote handling to JET has been demonstration of the very close interdependency of the design of components with the design of remote handling tooling. Future fusion machines will be much more complex than JET and will demand even greater remote handling compatibility. This paper will discuss possible methods for improving this process. Also discussed are the principles of condition monitoring to provide a means of pre-emptive maintenance, modularisation, standardisation, and innovations and developments which have the potential for improving some of the key technologies required for fusion machines.
机译:JET远程处理设施的成功运行直接归因于远程处理设备和实验组件采用的设计流程。作者在此报告了他们所获得的经验以及他们认为可能有益于聚变机维护的技术进步。提供远程处理设备的方法一直是现成设备的首选。在电气,电子,软件和控制领域,这种方法通常是可以实现的。但是,机械设备几乎完全是定制的,因为其要求对JET组件的设计以及船上进入条件和环境兼容性非常敏感。因此。 JET要求设计和制造700多种特殊类型的远程处理设备。本文讨论了为JET引入和开发远程搬运机械设备的经验,并介绍了远程搬运设备与JET组件设计之间的关系以及改进设计功能的潜力。从将远程处理引入JET的一个主要教训是,证明了组件设计与远程处理工具的设计之间的紧密联系。未来的融合机将比JET复杂得多,并且将需要更大的远程处理兼容性。本文将讨论改进此过程的可能方法。还讨论了状态监视的原理,以提供先发制人的维护,模块化,标准化以及创新和发展的手段,这些手段有可能改善聚变机所需的某些关键技术。

著录项

相似文献

  • 外文文献
  • 中文文献
  • 专利
获取原文

客服邮箱:kefu@zhangqiaokeyan.com

京公网安备:11010802029741号 ICP备案号:京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有
  • 客服微信

  • 服务号