CN205016253U - A simulated fuel subassembly for irradiation - Google Patents

A simulated fuel subassembly for irradiation Download PDF

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Publication number
CN205016253U
CN205016253U CN201520794893.1U CN201520794893U CN205016253U CN 205016253 U CN205016253 U CN 205016253U CN 201520794893 U CN201520794893 U CN 201520794893U CN 205016253 U CN205016253 U CN 205016253U
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China
Prior art keywords
perforated plate
guide pipe
lower perforated
screen work
irradiation
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CN201520794893.1U
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Chinese (zh)
Inventor
丁捷
丁阳
郑轶雄
曾奇峰
许志红
刘松
朱丽兵
刘家正
党宇
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Shanghai Nuclear Engineering Research and Design Institute Co Ltd
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Shanghai Nuclear Engineering Research and Design Institute Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E30/00Energy generation of nuclear origin
    • Y02E30/30Nuclear fission reactors

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  • Monitoring And Testing Of Nuclear Reactors (AREA)

Abstract

The utility model discloses a simulated fuel subassembly for irradiation, including top tube board spare, stand pipe and interior intubate parts, screen work, fuel rod and low tube board spare, the stand pipe includes stand pipe, interior intubate and measuring stick with interior intubate parts, top tube board spare passes through the stand pipe and links to each other with low tube board spare, the screen work is connected on the stand pipe, the fuel rod is connected on the screen work, the both ends of stand pipe are provided with first stand pipe end plug and second stand pipe end plug respectively, interior intubate setting is in the inside of stand pipe, the one end of interior intubate links to each other with first stand pipe end plug, and the other end is provided with interpolation pipe end stopper, the one end of measuring stick links to each other with interpolation pipe end stopper, and the other end passes second stand pipe end plug. The utility model relates to a simulated fuel subassembly contains the crucial structural component of fuel assembly such as stand pipe, screen work, fuel rod for the irradiation, can cover most fuel structure key feature and material, can realize the irradiation test to crucial structure of multiple fuel assembly and material.

Description

A kind of simulated fuel assembly for irradiation
Technical field
The utility model relates to a kind of simulated fuel assembly, particularly relates to a kind of simulated fuel assembly for irradiation.
Background technology
Fuel assembly is the critical component of reactor core, when running in piling, the heat that nuclear reaction produces is passed to cooling medium, and provides suitable runner for cooling medium, and guarantee reactor core can enough be cooled.Fuel assembly works for a long time in reactor core under high temperature, high pressure, high boron water, strong neutron irradiation, burn into wash away the condition severe with hydraulic vibration etc., and therefore the design of fuel assembly need ensure high safety and reliability.In order to ensure fuel assembly safety and reliability in use, need on stream through in-pile irradiation test checking for the new material of fuel assembly or new construction.Usually need a kind of simulated fuel assembly for irradiation of design to put into test loop to verify.
Utility model content
Can effectively carry out internal Irradiation Test checking to solve fuel assembly, the operating cost of nuclear reactor Irradiation Test and the step that simplifies the operation can be reduced again, the utility model proposes a kind of simulated fuel assembly for irradiation.
The purpose of this utility model is a kind of simulated fuel assembly for irradiation of utility model, this simulated fuel assembly can be used for the test reactor internal irradiation test of fuel assembly new material and new construction scheme, for the use in fuel assembly of new material and new construction provides performance data after irradiation, provide data supporting for finally entering business heap.
This simulated fuel assembly being used for irradiation comprises upper perforated plate parts, guide pipe and interpolation pipe parts, lower perforated plate parts; Described guide pipe and interpolation pipe parts comprise guide pipe; Described upper perforated plate parts are connected with described guide pipe is dismountable; Described lower perforated plate is connected with described guide pipe is dismountable.
Further, described upper perforated plate parts comprise upper perforated plate, upper perforated plate gland and upper perforated plate register pin; The upper perforated plate aperture that described upper perforated plate gland is provided with upper perforated plate macropore and is communicated with upper perforated plate macropore; The end of described guide pipe is provided with the thick insert structure in middle thin both sides; The diameter of described upper perforated plate macropore is greater than the maximum outside diameter of described insert structure; Described upper perforated plate aperture and the diameter of passage be communicated with described upper perforated plate macropore are less than the maximum outside diameter of described insert structure, but are greater than the minimum outer diameter of described insert structure; Described upper perforated plate, described upper perforated plate gland and described upper perforated plate register pin be further arranged into, described insert structure is through described upper perforated plate and described upper perforated plate macropore, described guide pipe and described upper perforated plate, by rotate or the mode of movement makes the minimum outer diameter of described insert structure be converted to described upper perforated plate aperture position from the large hole site of described upper perforated plate, are fixed by described upper perforated plate register pin by described upper perforated plate gland.
Further, described lower perforated plate parts comprise lower perforated plate, lower perforated plate gland and lower perforated plate register pin; The lower perforated plate aperture that described lower perforated plate gland is provided with lower perforated plate macropore and is communicated with lower perforated plate macropore; The end of described guide pipe is provided with the thick insert structure in middle thin both sides; The diameter of described lower perforated plate macropore is greater than the maximum outside diameter of described insert structure, and described lower perforated plate aperture and the diameter of passage be communicated with described lower perforated plate macropore are less than the maximum outside diameter of described insert structure, but are greater than the minimum outer diameter of described insert structure; Described lower perforated plate, described lower perforated plate gland and described lower perforated plate register pin be further arranged into, described insert structure is through described lower perforated plate and described lower perforated plate macropore, described guide pipe and described lower perforated plate, by rotate or the mode of movement makes the minimum outer diameter of described insert structure be converted to described lower perforated plate aperture position from the large hole site of described lower perforated plate, are fixed by described lower perforated plate register pin by described lower perforated plate gland.
Further, described guide pipe and interpolation pipe parts also comprise interpolation pipe and sounding rod; Described upper perforated plate parts are connected with described lower perforated plate parts by described guide pipe; The two ends of described guide pipe are respectively arranged with the first guide pipe end plug and the second guide pipe end plug; Described interpolation pipe is arranged on the inside of described guide pipe; One end of described interpolation pipe is connected with described first guide pipe end plug, and the other end is provided with interpolation pipe end plug; One end of described sounding rod is connected with described interpolation pipe end plug, and the other end is through described second guide pipe end plug.
Further, screen work and fuel rod is also comprised; Described screen work is connected on described guide pipe; Described fuel rod is connected on described screen work.
Further, described screen work comprises screen work sleeve pipe and screen work band; Described screen work sleeve pipe is arranged on described screen work band; Described screen work band is provided with spring and firm male structure; Described screen work is connected on described guide pipe by described screen work sleeve pipe.
Further, described fuel rod comprises fuel rod clad; Described fuel rod clad two ends are provided with fuel rod end plug.
Further, described fuel rod also comprises fuel pellet; Described fuel pellet is arranged in described fuel rod clad.
Further, described interpolation pipe and described guide pipe adopt machinery or welding manner to be connected; Be connected by machinery or welding manner between described screen work with described guide pipe.
Further, described fuel rod is connected with described screen work band is dismountable by the mode of clamping.
Further, the quantity of described screen work, described fuel rod and described guide pipe and interpolation pipe parts can be 2 or more than.
The beneficial effects of the utility model:
(1) the irradiation simulated fuel assembly involved by the utility model comprises the fuel assembly critical structural component such as guide pipe, screen work, fuel rod, most of fuel structure key feature and material can be contained, the Irradiation Test to pluralities of fuel assembly key structure and material can be realized.
(2) many places are local for removably connecting, and convenient disassembly is simple, the register pin of such as upper and lower tube sheet and large small structure, and fuel rod is connected with screen work band is dismountable by the mode of clamping.Therefore, only Irradiation Test can be carried out to guide pipe; Also all Irradiation Test can be carried out to guide pipe, screen work or guide pipe, screen work and fuel rod.
(3) be provided with sounding rod structure, the irradiation growth amount in interpolation pipe can be found out easily, test without the need to suspending and take out interpolation pipe to observe.
Some fuel rods can be comprised in (4) simulated fuel assemblies, Irradiation Test can be carried out to pluralities of fuel rod cladding materials.
Accompanying drawing explanation
Fig. 1 is the structural representation of the simulated fuel assembly for irradiation of a kind of embodiment of the present utility model.
Fig. 2 is the structural representation of the bottom nozzle parts of the simulated fuel assembly for irradiation of a kind of embodiment of the present utility model.
Fig. 3 is the guide pipe of the simulated fuel assembly for irradiation of a kind of embodiment of the present utility model and the structural representation of interpolation pipe parts.
Fig. 4 is the structural representation of the screen work of the simulated fuel assembly for irradiation of a kind of embodiment of the present utility model.
Fig. 5 is the structural representation of the fuel rod of the simulated fuel assembly for irradiation of a kind of embodiment of the present utility model.
Embodiment
Be further described below in conjunction with accompanying drawing 1 ~ 5 pair of the utility model.
Simulated fuel assembly as shown in Figure 1 for irradiation is made up of upper perforated plate parts 1, guide pipe and interpolation pipe parts 2, screen work 3, fuel rod 4, lower perforated plate parts 5.
Upper perforated plate parts 1 are identical with lower perforated plate parts 5 structure.Lower perforated plate parts 5 are as shown in Figure 2 made up of lower perforated plate 6, lower perforated plate gland 7 and lower perforated plate register pin 8, after guide pipe and interpolation pipe parts 2 insert lower perforated plate 6, are fixed by lower perforated plate gland 7.The end of guide pipe and interpolation pipe parts 2 is the thick insert structures in middle thin both sides, is specially Step Shaft here, and stage casing, end diameter is reduced by step for lower perforated plate 6 provides axial location.One end of lower perforated plate gland 7 has lower perforated plate macropore, and lower perforated plate macropore side has lower perforated plate aperture, is communicated with between holes.The aperture of lower perforated plate macropore is slightly larger than the maximum outside diameter of the Step Shaft of the end of guide pipe and interpolation pipe parts 2, and the Step Shaft for guide pipe and interpolation pipe parts 2 passes through; The aperture of lower perforated plate aperture is less than the maximum outside diameter of the Step Shaft of the end of lower perforated plate macropore and guide pipe and interpolation pipe parts 2, but is greater than the minimum outer diameter of the Step Shaft of the end of guide pipe and interpolation pipe parts 2.Guide pipe coordinates for tube sheet provides axial location with the Step Shaft of the end of interpolation pipe parts 2, large aperture intermediate connection, lower perforated plate gland 7 is by rotate or the mode of movement makes the lower end of guide pipe and interpolation pipe parts 2 be converted to lower perforated plate aperture position from lower perforated plate macropore position to realize locating.By lower perforated plate register pin 8, itself and lower perforated plate 6 are fixed after lower perforated plate gland 7 is in place.Upper and lower tube sheet is connected for removable with interpolation pipe parts 2 with guide pipe, conveniently can test the interstage and change fuel rod 4.
Be guide pipe and interpolation pipe parts 2 as shown in Figure 3, wherein guide pipe 10 and interpolation pipe 11 can use not same material, can carry out Irradiation Test by guide pipe and interpolation pipe parts 2 at least 2 kinds of tubing.Guide pipe 10, interpolation pipe 11 and the first guide pipe end plug 9, second guide pipe end plug 13, interpolation pipe end plug 12 can use same material to pass through to be welded to connect, and different materials also can be used to pass through mechanical connection.End plug 9 under guide pipe 10, shared first guide pipe of interpolation pipe 11, thus link together.A sounding rod 18 is installed in the end of interpolation pipe end plug 12, is convenient for measuring the irradiation growth amount of interpolation pipe 11 through the second guide pipe end plug 13.
Accompanying drawing 4 is screen work 3, and screen work 3 is made up of screen work sleeve pipe 14 and screen work band 15, and screen work band comprises spring, the just key structure such as convex.Multiple screen work can be comprised for testing spring on multiple different strip material or band, the just key structure such as convex in a simulated fuel assembly.Screen work 3 is connected on guide pipe 10 by screen work sleeve pipe 14.
Accompanying drawing 5 is fuel rod 4, and fuel rod 4 is by fuel rod end plug 16 and fuel rod clad 17, and fuel pellet composition coated in fuel rod clad 17.Some fuel rods can be comprised in a simulated fuel assembly, Irradiation Test can be carried out to pluralities of fuel rod cladding materials.
More than describe preferred embodiment of the present utility model in detail.Should be appreciated that those of ordinary skill in the art just can make many modifications and variations according to design of the present utility model without the need to creative work.Therefore, all technician in the art according to design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should by the determined protection domain of claims.

Claims (10)

1. for a simulated fuel assembly for irradiation, it is characterized in that, comprise upper perforated plate parts, guide pipe and interpolation pipe parts, lower perforated plate parts; Described guide pipe and interpolation pipe parts comprise guide pipe; Described upper perforated plate parts are connected with described guide pipe is dismountable; Described lower perforated plate is connected with described guide pipe is dismountable.
2., as claimed in claim 1 for the simulated fuel assembly of irradiation, it is characterized in that, described upper perforated plate parts comprise upper perforated plate, upper perforated plate gland and upper perforated plate register pin; The upper perforated plate aperture that described upper perforated plate gland is provided with upper perforated plate macropore and is communicated with upper perforated plate macropore; The end of described guide pipe is provided with the thick insert structure in middle thin both sides; The diameter of described upper perforated plate macropore is greater than the maximum outside diameter of described insert structure; Described upper perforated plate aperture and the diameter of passage be communicated with described upper perforated plate macropore are less than the maximum outside diameter of described insert structure, but are greater than the minimum outer diameter of described insert structure; Described upper perforated plate, described upper perforated plate gland and described upper perforated plate register pin be further arranged into, described insert structure is through described upper perforated plate and described upper perforated plate macropore, described guide pipe and described upper perforated plate, by rotate or the mode of movement makes the minimum outer diameter of described insert structure be converted to described upper perforated plate aperture position from the large hole site of described upper perforated plate, are fixed by described upper perforated plate register pin by described upper perforated plate gland.
3., as claimed in claim 1 for the simulated fuel assembly of irradiation, it is characterized in that, described lower perforated plate parts comprise lower perforated plate, lower perforated plate gland and lower perforated plate register pin; The lower perforated plate aperture that described lower perforated plate gland is provided with lower perforated plate macropore and is communicated with lower perforated plate macropore; The end of described guide pipe is provided with the thick insert structure in middle thin both sides; The diameter of described lower perforated plate macropore is greater than the maximum outside diameter of described insert structure, and described lower perforated plate aperture and the diameter of passage be communicated with described lower perforated plate macropore are less than the maximum outside diameter of described insert structure, but are greater than the minimum outer diameter of described insert structure; Described lower perforated plate, described lower perforated plate gland and described lower perforated plate register pin be further arranged into, described insert structure is through described lower perforated plate and described lower perforated plate macropore, described guide pipe and described lower perforated plate, by rotate or the mode of movement makes the minimum outer diameter of described insert structure be converted to described lower perforated plate aperture position from the large hole site of described lower perforated plate, are fixed by described lower perforated plate register pin by described lower perforated plate gland.
4. the simulated fuel assembly for irradiation as described in any one of claims 1 to 3, is characterized in that, described guide pipe and interpolation pipe parts also comprise interpolation pipe and sounding rod; Described upper perforated plate parts are connected with described lower perforated plate parts by described guide pipe; The two ends of described guide pipe are respectively arranged with the first guide pipe end plug and the second guide pipe end plug; Described interpolation pipe is arranged on the inside of described guide pipe; One end of described interpolation pipe is connected with described first guide pipe end plug, and the other end is provided with interpolation pipe end plug; One end of described sounding rod is connected with described interpolation pipe end plug, and the other end is through described second guide pipe end plug.
5., as claimed in claim 1 for the simulated fuel assembly of irradiation, it is characterized in that, also comprise screen work and fuel rod; Described screen work is connected on described guide pipe; Described fuel rod is connected on described screen work.
6., as claimed in claim 5 for the simulated fuel assembly of irradiation, it is characterized in that, described screen work comprises screen work sleeve pipe and screen work band; Described screen work sleeve pipe is arranged on described screen work band; Described screen work band is provided with spring and firm male structure; Described screen work is connected on described guide pipe by described screen work sleeve pipe.
7., as claimed in claim 5 for the simulated fuel assembly of irradiation, it is characterized in that, described fuel rod comprises fuel rod clad; Described fuel rod clad two ends are provided with fuel rod end plug.
8., as claimed in claim 7 for the simulated fuel assembly of irradiation, it is characterized in that, described fuel rod also comprises fuel pellet; Described fuel pellet is arranged in described fuel rod clad.
9. as claimed in claim 5 for the simulated fuel assembly of irradiation, it is characterized in that, described interpolation pipe and described guide pipe adopt machinery or welding manner to be connected; Be connected by machinery or welding manner between described screen work with described guide pipe.
10. the simulated fuel assembly for irradiation as described in any one of claim 5 ~ 9, is characterized in that, the quantity of described screen work, described fuel rod and described guide pipe and interpolation pipe parts can be 2 or more than.
CN201520794893.1U 2015-10-14 2015-10-14 A simulated fuel subassembly for irradiation Active CN205016253U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106158057A (en) * 2016-08-17 2016-11-23 中国核电工程有限公司 The analog of Spent Fuel Pool

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106158057A (en) * 2016-08-17 2016-11-23 中国核电工程有限公司 The analog of Spent Fuel Pool
CN106158057B (en) * 2016-08-17 2019-12-13 中国核电工程有限公司 simulation device of spent fuel pool

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CP01 Change in the name or title of a patent holder

Address after: No. 29 Hong Cao Road, Xuhui District, Shanghai

Patentee after: Shanghai Nuclear Engineering Research and Design Institute Co.,Ltd.

Address before: No. 29 Hong Cao Road, Xuhui District, Shanghai

Patentee before: SHANGHAI NUCLEAR ENGINEERING RESEARCH & DESIGN INSTITUTE

CP01 Change in the name or title of a patent holder