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Pressurized water reactor spent fuel element indirect neutron CT imaging device

A CT imaging and spent fuel technology, which is applied in the fields of reactors, nuclear reactor monitoring, nuclear power generation, etc., can solve problems such as the inability to apply 3D inspection and imaging of spent fuel elements, the inability to obtain the morphology of pellet fragments, and the 3D information of particle distribution in the pellets. , to achieve the effect of expanding the amount of non-destructive testing information and ensuring accuracy

Active Publication Date: 2015-11-04
CHINA INSTITUTE OF ATOMIC ENERGY
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Problems solved by technology

However, this method can only complete two-dimensional detection and imaging of spent fuel elements at present, so it is impossible to obtain three-dimensional information of defects such as the morphology of spent fuel element pellet fragments, the distribution of particles inside the pellet, and the state of cladding damage.
[0005] The acquisition of the 3D information of the above-mentioned defects depends on the 3D detection and imaging of spent fuel components, but because there is no mature 3D detection and imaging device available at present, the existing CT devices are completely unsuitable for the detection of spent fuel components due to various problems. Three-dimensional inspection imaging, so to realize the three-dimensional non-destructive inspection of PWR spent fuel components, it is necessary to develop a new imaging device

Method used

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  • Pressurized water reactor spent fuel element indirect neutron CT imaging device
  • Pressurized water reactor spent fuel element indirect neutron CT imaging device

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Embodiment

[0019] Using the PWR spent fuel element indirect neutron CT imaging device of the present invention to perform three-dimensional detection and imaging of a spent fuel element sample, the process is as follows:

[0020] Step 1: using the spent fuel element motion controller to move the spent fuel element sample into the neutron beam channel through the spent fuel element inlet;

[0021] Step 2: moving the neutron conversion screen from the neutron conversion screen channel to the rear of the spent fuel element sample under the control of the neutron conversion screen motion controller;

[0022] Step 3: Introduce the neutron beam through the neutron beam channel, obtain a two-dimensional detection image on the neutron conversion screen after the neutron beam passes through the spent fuel element sample, and remove the neutron beam;

[0023] Step 4: Under the control of the spent fuel element motion controller, rotate the spent fuel element sample precisely by 1 degree, and repla...

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Abstract

The invention relates to a nuclear material detection device. The invention provides a pressurized water reactor spent fuel element indirect neutron CT imaging device. The device realizes a 3D nondestructive test on a pressurized water reactor spent fuel element. The device comprises a spent fuel element motion control device and a conversion screen exposure device. The spent fuel element motion control device comprises a spent fuel element motion controller and a shield housing. The conversion screen exposure device comprises a neutron convert screen, a neutron convert screen channel, a neutron beam channel and a neutron convert screen motion controller. The neutron beam channel is provided with a spent fuel element inlet. The imaging device realizes a 3D nondestructive test on a pressurized water reactor spent fuel element, can acquire complete detection information of defects such as spent fuel element core fragment morphology, core inner particle distribution and a housing breaking state, and can provide forceful guarantee for quality detection and performance improvement of a pressurized water reactor spent fuel element in China.

Description

technical field [0001] The invention relates to nuclear material detection equipment, in particular to an indirect neutron CT imaging device for spent fuel components of a pressurized water reactor. Background technique [0002] In the field of nuclear industry, in order to realize the quality control of PWR nuclear fuel elements, it is necessary to detect the corresponding spent fuel elements. However, due to the strong radioactivity of PWR spent fuel elements, general detection techniques cannot be applied to its detection. [0003] As an advanced non-destructive testing technology, neutron radiography is widely used in the industrial field, and has many advantages such as fast detection speed, accurate results, and high reliability. However, the strong radioactivity of spent fuel components in PWRs will seriously interfere with neutron radiography, making it impossible to obtain detection images. Therefore, traditional neutron radiography techniques cannot be directly ap...

Claims

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Application Information

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IPC IPC(8): G21C17/10
CPCY02E30/30
Inventor 陈东风刘蕴韬魏国海韩松柏贺林峰武梅梅王洪立王雨孙凯
Owner CHINA INSTITUTE OF ATOMIC ENERGY
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