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Method suitable for transportation burnup coupling calculation of nuclear reactor

A nuclear reactor and burnup technology, applied in the field of nuclear reactor physical computing, can solve problems such as time-consuming, increasing computing time, and prolonging computing time.

Active Publication Date: 2017-08-25
XI AN JIAOTONG UNIV
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  • Abstract
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Problems solved by technology

[0007] In the traditional transport burnup coupling strategy, when components or cores are full of poisons, the step size of burnup must be controlled at a small value to obtain an ideal result, but it also requires many times of neutron transport. calculation, which is extremely time-consuming in actual high-fidelity reactor physics calculations, greatly prolonging the calculation time
[0008] The estimation and correction method has high accuracy in the calculation of conventional fuel assemblies without burnable poison rods, but in the calculation of fuel assemblies with burnable poison rods and even the core, in order to ensure the accuracy of the estimation and correction method, it is necessary to use Divide finer fuel consumption steps, so in the fuel consumption calculation of the entire life cycle, multiple transportation calculations will be performed, which greatly increases the calculation time

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  • Method suitable for transportation burnup coupling calculation of nuclear reactor
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  • Method suitable for transportation burnup coupling calculation of nuclear reactor

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Embodiment Construction

[0084] Below in conjunction with accompanying drawing and specific embodiment the present invention is described in further detail:

[0085] Such as figure 1 Shown, the present invention is a kind of method applicable to the coupling calculation of transport burnup of nuclear reactor, comprising the steps:

[0086] Step 1: Carry out transport calculations based on the nuclear density at the initial burnup step and the geometric information provided by the input card. The coarse mesh acceleration method, namely the CMFD acceleration method, is introduced into the transport calculation, and the coarse mesh acceleration method obtained during the rough mesh acceleration calculation at the initial burnup step is saved. Network parameters, the microscopic reaction rate of each burnup zone at the beginning of the burnup step is obtained, that is, the product of the microscopic section of the nuclide in each burnup zone and the neutron flux density of the corresponding burnup zone, i...

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Abstract

The invention discloses a method suitable for the transportation burnup coupling calculation of a nuclear reactor. The method comprises the following steps that: 1: carrying out transportation calculation on the nucleus concentration of burnup step initiation to obtain a coarse mesh parameter and a microcosmic reaction rate; 2: carrying out burnup calculation by the microcosmic reaction rate and the nucleus concentration to obtain the nucleus concentration estimated by a burnup step end; 3: carrying out the transportation calculation by the estimated nucleus concentration to obtain the coarse mesh parameter and the microcosmic reaction rate; 4: dividing burnup CMFD (Coarse Mesh Finite Difference) substeps in a burnup step, and carrying out linear interpolation on the stored coarse mesh parameter; 5: updating the microcosmic reaction rate of the burnup CMFD substeps by the coarse mesh parameter obtained in the 4 and thin mesh neutron flux in the 3; 6: carrying out the burnup calculation by the microcosmic reaction rate on the burnup CMFD substeps to obtain the accurate nucleus concentration of the burnup step end; and 7: judging whether a burnup step number is consistent with an input value or not to judge whether calculation is finished or not. By use of the method, on a premise that extremely high accuracy is guaranteed, the step length of the burnup calculation is extremely enlarged, and calculation time in the whole service life of the nuclear reactor is shortened.

Description

technical field [0001] The invention relates to the technical field of nuclear reactor physical calculations, in particular to a method suitable for coupling calculation of transport fuel consumption of nuclear reactors. Background technique [0002] Today, as the requirements for design conditions and calculation accuracy continue to increase, the field of nuclear reactor design hopes to achieve high-fidelity reactor physical calculations through accurate modeling and minimize the approximation and errors introduced in the calculation process of upstream nuclear reactors. Analyze simulations. [0003] High-fidelity reactor physics calculation mainly includes two parts: neutron transport calculation and burnup calculation. The neutron transport calculation obtains the neutron flux density field based on the nuclear density field, temperature field, etc., and then provides the power distribution of the core; The nuclear density field is iterated continuously in this way, an...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F19/00
CPCG16Z99/00
Inventor 刘宙宇温兴坚吴宏春
Owner XI AN JIAOTONG UNIV
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