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Regular bed modular high temperature gas cooled reactor and its fuel sphere disposal method

A high-temperature gas-cooled reactor and modular technology, applied in the field of nuclear reactors, can solve the problems of not being able to obtain optimal power and temperature distribution, large uneven coefficients of axial and radial power, and large coolant flow resistance, etc., to achieve energy Effects of conversion efficiency, high adaptability and stability, uniform deep burnup

Inactive Publication Date: 2006-02-08
田嘉夫
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AI Technical Summary

Problems solved by technology

However, the fuel balls piled up randomly move from top to bottom in the core, and cannot obtain the best power and temperature distribution. Although the fuel balls pass through the core more than 10 times on average before becoming spent fuel, the axial and radial The power non-uniformity coefficient is very large, so that within the limited volume of the modular reactor, the maximum output thermal power of the reactor can only reach about 400 megawatts
Coupled with the high flow resistance of the pebble bed core coolant, when the helium turbine is used for direct cycle power generation, the high-efficiency measures to reduce the temperature difference and increase the flow rate are limited, so the net power generation efficiency is only about 41%.
The block reactor not only has a thermal power output of 600 MW, but also has a net power generation efficiency of about 47%. The electrical power output of the two modular high-temperature gas-cooled reactors is quite different.

Method used

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  • Regular bed modular high temperature gas cooled reactor and its fuel sphere disposal method
  • Regular bed modular high temperature gas cooled reactor and its fuel sphere disposal method
  • Regular bed modular high temperature gas cooled reactor and its fuel sphere disposal method

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Embodiment Construction

[0042] The regular bed modular high-temperature gas-cooled reactor proposed by the present invention has a structure such as figure 1 As shown, it includes fuel ball cores 6 and 21, graphite block reflection layers 19 and 20, control rods 7, absorbing pellets 4, and a steel pressure vessel 9. The graphite block reflectors 19 and 20 are placed in the steel pressure vessel 9; the described cores 6 and 21 are placed in the cavities formed by the graphite block reflectors 19 and 20, and the core is a solid column 21, such as figure 1 e shown, or hollow columnar 6, such as figure 1 As shown in a, helium is placed in the core and the reflective layer of the graphite block. The control rods 7 or the absorbing balls 4 are placed in the graphite reflective layers 19 and 20; it is characterized in that the fuel balls 25 are arranged in a square on the horizontal plane in the cavity of the graphite reflective layer, and the depression formed at the center of every 4 balls becomes the ne...

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Abstract

The invention relates to a rule bed module type high temperature gas-cooled reactor and fuel ball arranging method in the field of nuclear reactor technology. It arranges the helium inside the graphite block reflector. The control rod and the absorbing small ball are position inside the graphite block reflector. The flue ball is quadratic arranged on the level of the graphite block reflector hollow cavity, the center deck of each four balls can be used as the location of the second layer ball so as to form the rule bed with the up end and the down end is graphite block reflector.

Description

technical field [0001] The invention relates to a regular-bed modular high-temperature gas-cooled reactor and a method for arranging fuel balls thereof, belonging to the technical field of nuclear reactors. Background technique [0002] The high-temperature gas-cooled reactor is an advanced nuclear reactor type recognized internationally with good safety, high power generation efficiency and wide application. Due to the use of high-temperature-resistant ceramic-type coated particles as fuel, inert gas helium as coolant, and graphite as moderator and core structure material, it can generate high temperatures above 950 degrees, not only high-efficiency power generation, but also in coal It has broad application prospects in gasification, liquefaction and hydrogen production. [0003] The emergence of modular high-temperature gas-cooled reactors in the 1990s has made great progress in this technology. The modular high-temperature gas-cooled reactor is characterized by miniatu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G21C1/07G21C5/00
CPCY02E30/36G21C5/00Y02E30/40G21C1/07Y02E30/30
Inventor 田嘉夫
Owner 田嘉夫
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