Analysis of Fission Products’ Release in Pebble-Bed High-Temperature Gas-Cooled Reactor Fuel Elements Using a Modified FRESCO II Numerical Model-Reference-Cited by-同舟云学术

Analysis of Fission Products’ Release in Pebble-Bed High-Temperature Gas-Cooled Reactor Fuel Elements Using a Modified FRESCO II Numerical Model

Published:2021-02-27 Issue: Volume:2021 Page:1-8
ISSN:1687-6083
Container-title:Science and Technology of Nuclear Installations
language:en
Short-container-title:Science and Technology of Nuclear Installations

Author:

Fang Chao¹²³⁴,Li Chuan¹²³^ORCID,Cao Jianzhu¹²³,Liu Ke¹²³,Fang Sheng¹²³^ORCID

Affiliation:

1. Institute of Nuclear and New Energy Technology, Tsinghua University, Beijing 100084, China

2. Collaborative Innovation Center of Advanced Nuclear Energy Technology, Beijing 100084, China

3. The Key Laboratory of Advanced Reactor Engineering and Safety, Ministry of Education, Beijing 100084, China

4. Lab for High Technology, Tsinghua University, Beijing 100084, China

Abstract

The radiation safety design and emergency analysis of an advanced nuclear system highly depends on the source term analysis results. In modular high-temperature gas-cooled reactors (HTGRs), the release rates of fission products (FPs) from fuel elements are the key issue of source term analysis. The FRESCO-II code has been established as a useful tool to simulate the accumulation and transport behaviors of FPs for many years. However, it has been found that the mathematical method of this code is not comprehensive, resulting in large errors for short-lived nuclides and large time step during calculations. In this study, we used the original model of TRISO particles and spherical fuel elements and provided a new method to amend the FRESCO-II code. The results show that, for long-lived radionuclides (Cs-137), the two methods are perfectly consistent with each other, while in the case of short-lived radionuclides (Cs-138), the difference can be more than 1%. Furthermore, the matrix method is used to solve the final release rates of FPs from fuel elements. The improved analysis code can also be applied to the source term analysis of other HTGRs.

Funder

National S&T Major Project

Publisher

Hindawi Limited

Subject

Nuclear Energy and Engineering

Link

http://downloads.hindawi.com/journals/stni/2021/6627789.pdf

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