A fuel pellet and a manufacturing method thereof

A technology for fuel pellets and a manufacturing method, which is applied in the manufacture of reactors, reactor fuel elements, reactor fuel materials, etc., can solve the problems of improving and unfavorable thermal conductivity of pellets, and affecting the thermal conductivity and distribution of BeO phase.

Inactive Publication Date: 2018-05-15
CHINA NUCLEAR POWER TECH RES INST CO LTD +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the uniform and continuous distribution in UO 2 The BeO in the matrix inhibits the diffusion of ions to a certain extent, hindering the compactness of the pellets and the growth of the grains
Using conventional direct addition of Cr 2 o 3 、Al 2 o 3 Such sintering aids can improve the sintering activity of the powder, but may react with BeO, affecting the thermal conductivity and distribution of the BeO phase, which is not conducive to the improvement of the thermal conductivity of the pellet

Method used

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  • A fuel pellet and a manufacturing method thereof
  • A fuel pellet and a manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0047] Weigh Cr with a particle size of 1 μm 2 o 3 Powder 0.5wt.%; the balance is UO with a particle size of 0.5μm 2 powder. Put each powder into a ball mill jar and mix evenly on a roller ball mill or a planetary ball mill. Press the mixed powder into a uranium oxide billet, the pressure is 100MPa, and the formed UO 2 Blank radius φ50mm, height 20mm. Will UO 2 The biscuit is pre-fired in a high-temperature atmosphere furnace, the sintering temperature is 100°C, and the holding time is 4h. Crush and sieve the pre-fired pellets, and then use self-grinding to obtain approximately spherical UO 2 Particles; at UO 2 Add 2.5wt.% BeO powder to the granule, mix, in UO 2 The particle surface is coated with a layer of BeO powder. Using compression molding, the pressing pressure is 200MPa, and the UO coated with BeO powder 2 The particles are pressed into pellets; under an inert or reducing atmosphere, the pellets are densified by pressureless sintering at a sintering temperatu...

Embodiment 2

[0050] Weigh Cr with a particle size of 1 μm 2 o 3 Powder 0.5wt.%; Al with a particle size of 1 μm 2 o 3 Powder 0.2wt.%; the balance is UO with a particle size of 0.5μm 2 powder. Put each powder into a ball mill jar and mix evenly on a roller ball mill or a planetary ball mill. Compression molding of mixed powder into UO 2 Biscuit, pressure 100MPa, formed UO 2 Blank radius φ50mm, height 20mm. The uranium oxide blank was pre-fired in a high-temperature atmosphere furnace, the sintering temperature was 100°C, and the holding time was 4 hours. Crush and sieve the pre-fired pellets, and then use self-grinding to obtain approximately spherical UO 2 Particles; at UO 2 Add 2.5wt.% BeO powder to the granule, mix, in UO 2 The particle surface is coated with a layer of BeO powder. Using compression molding, the pressing pressure is 200MPa, and the UO coated with BeO powder 2 The particles are pressed into pellets; under an inert or reducing atmosphere, the pellets are densif...

Embodiment 3

[0052] Weigh Nb with a particle size of 1 μm 2 o 5 Powder 0.5wt.%, Al with particle size 1μm 2 o 3 Powder 0.2wt.%; the balance is UO with a particle size of 0.5μm 2 powder. Put each powder into a ball mill jar and mix evenly on a roller ball mill or a planetary ball mill. Press the mixed powder into a uranium oxide green body at a pressure of 100 MPa, and the formed uranium oxide green body has a radius of φ50 mm and a height of 20 mm. The uranium oxide blank was pre-fired in a high-temperature atmosphere furnace, the sintering temperature was 100°C, and the holding time was 4 hours. Crush and sieve the pre-fired pellets, and then use self-grinding to obtain approximately spherical UO 2 Particles; at UO 2 Add 2.5wt.% BeO powder to the granule, mix, in UO 2 The particle surface is coated with a layer of BeO powder. Using compression molding, the pressing pressure is 200MPa, and the UO coated with BeO powder 2 The particles are pressed into pellets; under an inert or r...

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Abstract

A fuel pellet and a manufacturing method thereof are disclosed. The method includes S1) weighing raw materials including 0-2% of chromium trioxide, 0-2% of alumina, 0-2% of silicon oxide and 0-2% of niobium pentoxide, with the balance being uranium dioxide; S2) ball milling and fully mixing the raw materials to form a powder mixture; S3) compressing the powder mixture to form a uranium dioxide blank, and subjecting the blank to high-temperature pre-sintering; S4) crushing the blank, sieving the crushed blank, and grinding the crushed blank into uranium dioxide particles; S5) adding beryllium oxide powder into the uranium dioxide particles, mixing the mixture to form powder to be compressed, with each uranium dioxide particle being covered with a cover layer formed from the beryllium oxidepowder; and S6) subjecting the powder to be compressed to compression molding and densification sintering to obtain the fuel pellet. A manner of two times of compound addition and two times of sintering is adopted, and therefore sintering aids form solid solution or are distributed in the uranium dioxide matrix, diffusion or solid solution formation of the sintering aids into the beryllium oxide is reduced, and on the premise that the sintering aids do not influence heat conductivity of the BeO phase, the pellet crystal grain size is effectively increased, and sintering activity is improved.

Description

technical field [0001] The invention relates to the technical field of nuclear fuel elements, in particular to a fuel pellet and a manufacturing method thereof. Background technique [0002] Thanks to UO 2 With the advantages of high melting point, good stability, and good radiation performance, most of the fuel elements of commercial nuclear reactors in the world use UO 2 as fuel pellets. However, UO 2 The thermal conductivity of ceramics is low, and the fuel pellets form a large temperature gradient during service, and the core temperature reaches above 1500 °C. A large temperature gradient leads to thermal stress in the pellets, and a high temperature of the pellets increases the release rate of fission gases, which is not conducive to the increase in the burnup of fuel elements and affects the safety and economy of nuclear power. [0003] In order to reduce the thermal stress of pellets and reduce the release rate of fission gas, adding second-phase compounds with hi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G21C3/62G21C21/10G21C21/16
CPCG21C3/623G21C21/10G21C21/16Y02E30/30
Inventor 黄华伟刘彤李锐任啟森孙茂州马赵丹丹高思宇薛佳祥龚星彭振驯
Owner CHINA NUCLEAR POWER TECH RES INST CO LTD
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