Validation of 3D Depletion Model of the Parcs–Paths Program for WWER-440 Type Reactors

IF 0.5 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY
A. Ugujyan
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引用次数: 0

Abstract

Within the framework of a three-dimensional model, the burnup process of the core of the WWER-440 reactor was studied using measurements of the operating cycles of the Armenian NPP (ANPP). Simulation results showed that a model study that takes into account only the temperature dependence of the thermal conductivity of the PATHS (PARCS Advanced Thermal Hydraulic Solver) fuel leads to discrepancies with the measured values of the boron concentration as the cycle time increases. However, taking into account the dependence of thermal conductivity on burnup significantly improved the agreement between the results of PARCS–PATHS (Purdue Advanced Reactor Core Simulator) and measurements. Taking into account the heat transfer of the fuel rod gap further improved the agreement between the simulation and measurement results. For the non-peripheral fuel assemblies, the relative difference between the predicted PARCS–PATHS and measured thermocouple results meet the acceptance criteria (≤10%). For peripheral assemblies that are in contact with the reflector by three faces, the relative error exceeds the acceptance criteria (15%) by 1–2%.

Abstract Image

Abstract Image

为 WWER-440 型反应堆验证 Parcs-Paths 程序的三维损耗模型
摘要在三维模型框架内,利用亚美尼亚核电厂(ANPP)运行周期的测量数据,对 WWER-440 反应堆堆芯的燃烧过程进行了研究。模拟结果表明,仅考虑 PATHS(PARCS 高级热液压求解器)燃料热导率的温度依赖性的模型研究,会导致随着循环时间的增加,硼浓度的测量值与测量值之间出现差异。然而,考虑到热导率对燃烧的依赖性,PARCS-PATHS(普渡大学先进反应堆堆芯模拟器)的结果与测量值之间的一致性有了明显改善。考虑燃料棒间隙的热传导也进一步改善了模拟结果与测量结果之间的一致性。对于非外围燃料组件,PARCS-PATHS 预测结果与热电偶测量结果之间的相对差异符合验收标准(≤10%)。对于与反射器有三个接触面的外围组件,相对误差超出验收标准(15%)1-2%。
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来源期刊
CiteScore
1.00
自引率
66.70%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Journal of Contemporary Physics (Armenian Academy of Sciences) is a journal that covers all fields of modern physics. It publishes significant contributions in such areas of theoretical and applied science as interaction of elementary particles at superhigh energies, elementary particle physics, charged particle interactions with matter, physics of semiconductors and semiconductor devices, physics of condensed matter, radiophysics and radioelectronics, optics and quantum electronics, quantum size effects, nanophysics, sensorics, and superconductivity.
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