核电厂乏燃料贮存格架水下吊装工具研制

偶建磊; 袁志敏; 吴伟; 罗文广; 廖佳涛

doi:10.13832/j.jnpe.2021.04.0182

核电厂乏燃料贮存格架水下吊装工具研制

doi: 10.13832/j.jnpe.2021.04.0182

中国核动力研究设计院，成都， 610213

详细信息

作者简介:
偶建磊（1988—），男，工程师，现从事反应堆机械设计与维护，E-mail: oujianlei@163.com

中图分类号: TL93
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- 文章访问数: 342
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- 被引次数: 0
出版历程
- 收稿日期: 2020-06-22
- 修回日期: 2021-01-13
- 刊出日期: 2021-08-15

Development of Underwater Lifting Tool for Spent Fuel Storage Rack in Nuclear Power Plants

Nuclear Power Institute of China, Chengdu, 610213, China

摘要

摘要: 针对某二代核电厂乏燃料贮存格架水下吊装的需求，根据乏燃料贮存格架的水下布置特点，对水下吊装接口安全性及操作便利性进行分析，研制了一种通过抓放格架底板流水孔来实现格架水下自锁的兜底式格架吊装工具，并详细介绍了此水下吊装工具的结构组成、使用操作及工作原理；最后将此格架用于某二代核电厂20台格架的吊装作业。现场应用表明，此吊装工具操作简便、结构可靠，满足格架水下吊装需求。
- 乏燃料贮存格架 /
- 水下吊装 /
- 核电厂 /
- 吊装工具
Abstract: In response to the requirement for the underwater lifting of spent fuel storage racks in a second-generation nuclear power plant, according to the current situation of the narrow underwater layout of spent fuel storage racks and the analysis of the safety and convenience of underwater lifting interfaces, a grab-and-release rack was developed. Bottom-bottom lattice lifting tool with underwater self-locking lattice is realized by running water holes on the bottom of the rack, and the structure, operation and working principle of this underwater lifting tool are introduced in detail. Finally, the lattice is used in a second-generation nuclear power plant for a lifting operation of 20 rack frames in the factory. The field application shows that the lifting tool is easy to operate and reliable in structure, which meets the requirements for the underwater lifting of the lattice frame.
- Spent fuel storage rack /
- Underwater lifting /
- Nuclear power plant /
- Lifting tool

HTML全文

图 1 乏燃料贮存格架结构示意图

1—吊耳；2—围板；3—贮存单元；4—底板；5—流水孔；6—支腿　　　　　

Figure 1. Schematic Diagram of Spent Fuel Rack Storage Rack　　　　　

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图 2 格架底部流水孔结构图

Figure 2. Structure Drawing of Water Hole at the Bottom of Rack　　　　

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图 3 格架水下吊装接口示意图

Figure 3. Schematic Diagram of Lattice Underwater Lifting Interface

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图 4 格架水下吊装工具主体结构

Figure 4. Main Structure of Lattice Underwater Lifting Tool

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图 5 吊装长杆结构图

1—锥形管；2—推杆；3—吊装横梁连接盘；4—上部连接杆；5—弹簧导槽；6—弹簧；7—外管；8—底部连接杆；9—导向块；10—底部导槽；11—芯杆前端顶块；12—销轴；13—抓头

Figure 5. Structural Drawing of Lifting Long Rod

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图 6 吊装横梁结构图

1—吊装长杆固定槽；2—固定板；3—加强筋；4—支撑板；5—吊装板；6—吊装工装

Figure 6. Structural Drawing of Lifting Beam

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图 7 抓头张开与抓紧时推杆操作示意图

Figure 7. Schematic Diagram of Push Rod Operation when Grab Head Opened And Grasped

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参考文献(3)

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[2]	罗文广,偶建磊. 核电厂乏燃料贮存格架水下去污装置研制[J]. 核动力工程,2019, 40(5): 146-149.
[3]	王立德. HFETR堆内燃料元件吊装万向工具研制[J]. 核动力工程,1999, 20(4): 369-372.