Reactor power control system design and dynamic simulation for load maneuvers over full range and entire lifetime of an integrated supercritical CO2 reactor plant

IF 2.3 3区工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY Annals of Nuclear Energy Pub Date : 2025-01-01 Epub Date: 2024-08-15 DOI:10.1016/j.anucene.2024.110859

Chuntian Gao , Jichen Zou , Pan Wu , Jianqiang Shan , Gang Wang , Yandong Hou

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Abstract

Due to advantage of high efficiency, low carbon, and flexible operation, the integrated supercritical CO₂ reactor plant has promising prospect in energy supply. This paper aims to clarify performance of the reactor plant and establish a reactor power control strategy through numerical modeling. Firstly, performance on separated components is evaluated to provide guidance for control strategy development. Secondly, influence of control methods, controller schemes, and saturation models on control strategy are discussed. Thirdly, dynamic response of reactor plant with proposed control strategy is confirmed via load change transients. Results show that passive control method is infeasible at EOL and load demand below 50 %FP, and active control method must be considered. The proposed control strategy adopts coupled temperature-channel and power-channel scheme and soft saturation model. It ensures safe operation of the plant over full load range in whole lifetime. These results can provide helpful guidance on part-load operation for this system.

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反应堆功率控制系统设计和动态模拟，以实现一体化超临界二氧化碳反应堆厂房全范围和全寿命周期的负载操纵

由于具有高效、低碳、运行灵活等优点，一体化超临界二氧化碳反应器装置在能源供应方面具有广阔的前景。本文旨在通过数值建模阐明反应器装置的性能，并建立反应器功率控制策略。首先，对分离组件的性能进行评估，为控制策略的制定提供指导。其次，讨论了控制方法、控制器方案和饱和模型对控制策略的影响。第三，通过负荷变化瞬态来确认采用建议控制策略的反应堆设备的动态响应。结果表明，在 EOL 和负荷需求低于 50 %FP 时，被动控制方法不可行，必须考虑主动控制方法。所提出的控制策略采用了温度通道和功率通道耦合方案以及软饱和模型。它能确保电站在全负荷范围内安全运行。这些结果可为该系统的部分负荷运行提供有益的指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annals of Nuclear Energy 工程技术-核科学技术

CiteScore

4.30

自引率

21.10%

发文量

632

审稿时长

7.3 months

期刊介绍： Annals of Nuclear Energy provides an international medium for the communication of original research, ideas and developments in all areas of the field of nuclear energy science and technology. Its scope embraces nuclear fuel reserves, fuel cycles and cost, materials, processing, system and component technology (fission only), design and optimization, direct conversion of nuclear energy sources, environmental control, reactor physics, heat transfer and fluid dynamics, structural analysis, fuel management, future developments, nuclear fuel and safety, nuclear aerosol, neutron physics, computer technology (both software and hardware), risk assessment, radioactive waste disposal and reactor thermal hydraulics. Papers submitted to Annals need to demonstrate a clear link to nuclear power generation/nuclear engineering. Papers which deal with pure nuclear physics, pure health physics, imaging, or attenuation and shielding properties of concretes and various geological materials are not within the scope of the journal. Also, papers that deal with policy or economics are not within the scope of the journal.