The actual constraints and consequences of the maneuvering operation of PWRs — An optimum seeking approach

IF 2.1 3区工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY

Nuclear Engineering and Design Pub Date : 2025-10-06 DOI:10.1016/j.nucengdes.2025.114480

Pal Szentannai , Tamás Fekete

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Abstract

Apart from the increasing share of uncontrollable renewables in the energy mix, and aside from the successive stopping of traditional, fossil-fueled power plants, the consumption–production balance of the grid must be permanently assured. This necessitates the controllability also of many nuclear power plants. Traditional load control solutions focus only on the controlled variable; as an upgrade, a more comprehensive optimum seeking approach is proposed by the current study. If a nuclear power plant is in the maneuvering regime, the actual constraints and consequences of the nonstationary transitions have to be recognized, formulated, and considered. The external expectations are stated from the grid operator’s side – generally as time-dependent constraints on the electrical load output. The internal aspects are the versatile side-effects of the transients, mostly caused by thermal stresses. For finding the optimal balance between fast electrical load change and low damage on the reactor-side, a cost function is needed, which considers and weights the consequences, while adhering to the constraints. The resulting actuator trajectories indicate that a simple slowing down of the reactor’s load change is far from the optimal load-following strategy.

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压水堆机动操作的实际约束和后果——一种寻优方法

除了不可控制的可再生能源在能源结构中所占的份额越来越大，除了传统的化石燃料发电厂的不断停止，电网的消费-生产平衡必须得到永久的保证。这就要求许多核电站也具有可控性。传统的负荷控制方案只关注被控变量；作为一种升级，本研究提出了一种更全面的优化求解方法。如果核电站处于机动状态，则必须认识、制定和考虑非平稳过渡的实际约束和后果。外部期望是从电网运营商的角度来陈述的——通常是对电力负荷输出的时间依赖性约束。内部方面是瞬态的多种副作用，主要是由热应力引起的。为了在电力负荷的快速变化和电抗器侧的低损坏之间找到最优平衡，需要一个成本函数，它在遵守约束条件的同时考虑并权衡后果。由此得出的执行器轨迹表明，简单地减缓反应堆的负载变化远远不是最优的负载跟踪策略。

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

Nuclear Engineering and Design 工程技术-核科学技术

CiteScore

3.40

自引率

11.80%

发文量

377

审稿时长

5 months

期刊介绍： Nuclear Engineering and Design covers the wide range of disciplines involved in the engineering, design, safety and construction of nuclear fission reactors. The Editors welcome papers both on applied and innovative aspects and developments in nuclear science and technology. Fundamentals of Reactor Design include: • Thermal-Hydraulics and Core Physics • Safety Analysis, Risk Assessment (PSA) • Structural and Mechanical Engineering • Materials Science • Fuel Behavior and Design • Structural Plant Design • Engineering of Reactor Components • Experiments Aspects beyond fundamentals of Reactor Design covered: • Accident Mitigation Measures • Reactor Control Systems • Licensing Issues • Safeguard Engineering • Economy of Plants • Reprocessing / Waste Disposal • Applications of Nuclear Energy • Maintenance • Decommissioning Papers on new reactor ideas and developments (Generation IV reactors) such as inherently safe modular HTRs, High Performance LWRs/HWRs and LMFBs/GFR will be considered; Actinide Burners, Accelerator Driven Systems, Energy Amplifiers and other special designs of power and research reactors and their applications are also encouraged.