Method for preparing fuel particles and core-shell fuel particles prepared by using method
A technology of fuel particles and coated particles, which is applied in the direction of reactor fuel materials, nuclear engineering, nuclear power generation, etc., can solve the problem that the layer of combustible neutron poison cannot be easily coated, so as to reduce the risk of amoeba effect and avoid reaction , The effect of simple process
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Embodiment 1
[0025] Example 1 ZrO 2 / PSiC-ThO 2 Preparation of core-shell fuel particles
[0026] Such as figure 1 Shown, the preparation method according to the fuel particle of the present invention comprises the steps:
[0027] 1. Core preparation: choose ZrO with a diameter of 500 μm 2 Microspheres serve as cores.
[0028]2. Preparation of porous silicon carbide layer: argon gas is introduced into the high-temperature fluidized bed chemical vapor deposition device, and the above-mentioned prepared ZrO 2 Microspheres, the temperature rises to 1500 °C, and a mixture of argon, hydrogen, propylene and trichloromethylsilane (MTS) is introduced, wherein the molar ratio of trichloromethylsilane to propylene is 1:0.6, and hydrogen is used as a carrier. With gas, the deposition rate is 0.6 μm / min, and a composite layer containing silicon carbide and carbon is obtained. The above sample was placed in a high-temperature furnace, heated to 850° C. under an air atmosphere, and kept for 5 hour...
Embodiment 2
[0031] Example 2 PuO 2 / PZrC-ThO 2 Preparation of core-shell fuel particles
[0032] The specific process steps are as follows:
[0033] 1. Core preparation: choose PuO with a diameter of 500 μm 2 Microspheres serve as cores.
[0034] 2. Preparation of porous zirconium carbide layer: the above PuO 2 The microspheres are loaded into a high-temperature fluidized bed chemical vapor deposition device, the temperature rises to 1100°C, and a mixed gas of hydrogen, zirconium chloride and methane is introduced, wherein the molar ratio of zirconium chloride and methane is 1:1.6, and hydrogen is used as Carrier gas, deposition rate 0.3 μm / min, to obtain a composite layer containing zirconium carbide and carbon. The above sample was placed in a high-temperature furnace, heated to 850° C. under an air atmosphere, and kept for 3 hours to remove carbon to obtain a 10 μm thick porous zirconium carbide layer (PZrC).
[0035] 3. Vacuum impregnation: Add ammonia water dropwise at a flow r...
Embodiment 3
[0037] Example 3 CeO 2 / pSiC-Lu 2 o 3 Preparation of core-shell fuel particles
[0038] The specific process steps are as follows:
[0039] 1. Core preparation: choose CeO with a diameter of 100 μm 2 Microspheres serve as cores.
[0040] 2. Preparation of porous silicon carbide layer: argon gas is introduced into the high-temperature fluidized bed chemical vapor deposition device, and the above prepared CeO 2 Microspheres, the temperature rises to 1400 ° C, and a mixture of argon, hydrogen, propylene and trichloromethylsilane (MTS) is introduced, wherein the molar ratio of trichloromethylsilane to propylene is 1:0.6, and hydrogen is used as a carrier. With gas, the deposition rate is 0.4 μm / min, and a composite layer containing silicon carbide and carbon is obtained. The above sample was placed in a high-temperature furnace, heated to 850° C. under an air atmosphere, and kept for 3 hours to remove carbon and obtain a 10 μm thick porous silicon carbide layer (PSiC).
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