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Control rod capable of flattening axial power distribution of reactor core and control rod assembly

An axial power distribution and control rod technology, applied in the control of nuclear reactions, reactors, nuclear power generation, etc., can solve problems such as volume increase and the influence of core power density, achieve convenient operation, weaken the axial power distortion peak, improve The effect of average power

Inactive Publication Date: 2014-08-13
SOUTHWEAT UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The more advanced method at present is to design special axial power distribution control rods, such as the axial power offset control rod design of AP1000 (for example: Xie Hui. Analysis and research on the operation mode of AP1000 nuclear power plant. Nuclear engineering research and design [J ], 2010,(79):17-19.; and, Sun Jingdong. AP1000 Mechanical Compensation Control Strategy. Energy Technology [J], 2010,31(3):17-19.), although this design can make the axial The power is effectively flattened, but the disadvantage is that there must be enough space in the core for the axial power to deflect the control rods, otherwise, if the number of control rods is guaranteed, the corresponding volume will increase, and then The result is that the fuel rods in the core must be reduced, so the power density of the core will be affected instead

Method used

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  • Control rod capable of flattening axial power distribution of reactor core and control rod assembly
  • Control rod capable of flattening axial power distribution of reactor core and control rod assembly
  • Control rod capable of flattening axial power distribution of reactor core and control rod assembly

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Embodiment 1

[0047] Such as image 3 As shown, a control rod capable of flattening the axial power distribution of the core includes an inner layer 4 and an outer layer 3. The inner layer 4 can slide axially with respect to the outer layer 3, and the outer layer 3 includes a number of axially spaced Distributed neutron absorbers 31 and non-neutron absorbers 32, the inner layer 4 also includes several neutron absorbers 41 and non-neutron absorbers 42 spaced apart along the axial direction. among them image 3 Shown is a cross-sectional view of the outer layer 3 and the inner layer 4 of a certain cross section of the control rod. The inner layer 4 is in the shape of a cylinder, and the outer layer 3 is in the shape of a circular cylinder. Preferably, the outer layer 3 and the inner layer 4 of the control rod have different lengths, that is, the inner layer 4 exceeds the length of a non-neutron absorber 42 of the outer layer 3. When the tops of the inner layer 4 and the outer layer 3 are flush,...

Embodiment 2

[0064] The present invention also discloses a control rod assembly capable of flattening the axial power distribution of the reactor core. The control rod assembly includes a plurality of control rod pairs, and each control rod pair includes A-shaped control rods 5 and B of the same size and shape. Type control rod 6, such as Figure 8 , 9 As shown, the two control rods (5, 6) are similar to the structure in embodiment 1, that is, each A-type control rod 5 and B-type control rod 6 includes an inner layer (52, 62) and an outer layer (51). , 61), the inner layer (52, 62) can slide axially along the outer layer (51, 61), the outer layer (52, 62), the inner layer (51, 61) include several spaced axially Neutron absorbers (53,55,63,65) and non-neutron absorbers (54,56,64,66), and all neutron absorbers (53,55,63,65) and non-neutron absorbers (54,56,64,66) are all the same in length, and the inner layer (51,61) exceeds the outer layer (52,62) by a certain length, and its length is a ne...

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Abstract

The invention discloses a control rod capable of flattening the axial power distribution of a reactor core. The control rod comprises an inner layer and an outer layer, wherein the inner layer is capable of axially sliding relative to the outer layer, the outer layer comprises a plurality of neutron absorbers and non-neutron absorbers which are axially distributed at intervals, the inner layer comprises a plurality of neutron absorbers and non-neutron absorbers which are axially distributed at intervals, all the neutron absorbers and non-neutron absorbers of the outer layer and the inner layer are equal in lengths, and the number of the neutron absorbers / non-neutron absorbers in the inner layer is greater than that of the neutron absorbers / non-neutron absorbers of the outer layer by one. The invention further discloses a control rod assembly capable of flatting the axial power distribution of the reactor core. The control rod assembly comprises a plurality of control rod pairs, wherein each control rod pair comprises an A-type control rod and a B-type control rod. The control rod is applied to the power control on the reactor core of a reactor; the constitution of a control rod system and lifting and inserting procedures of the control rod are simplified; an axial power distorted peak of the reactor core can be reduced, the axial power distribution of the reactor core is improved, and further the problems of economy and safety, caused by inhomogeneous distribution of the axial power of the reactor core, are reduced.

Description

[0001] technical field [0002] The invention relates to the field of nuclear power plant safety and control machinery, in particular to a control rod and a control rod assembly capable of flattening the axial power distribution of the reactor core. Background technique [0003] The safety and control of nuclear power plants are very important. In order to control the chain reaction rate of the nuclear power plant core at a predetermined level, it is necessary to use neutron-absorbing materials to make absorbing rods, called control rods. Its main function is to compensate for fuel consumption and adjust the reaction rate and stop the chain reaction quickly. Control rods are mainly made of neutron-absorbing materials such as boron, boron carbide, hafnium, silver, indium, and cadmium. There is a set of mechanical devices outside the nuclear reaction pressure vessel to manipulate the control rods. The working principle of the control rod is: when the control rod is fully ins...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G21C7/10G21C7/117
CPCY02E30/39Y02E30/30
Inventor 刘成
Owner SOUTHWEAT UNIV OF SCI & TECH
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