基于LabVIEW的ACP1000核电站同步发电机建模与鲁棒分数阶模糊滑模双时标控制器设计

Q4 Physics and Astronomy

Proceedings of the Pakistan Academy of Sciences: Part A Pub Date : 2023-03-15 DOI:10.53560/ppasa(60-1)787

A. H. Malik, Feroza Arshad, A. Memon

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引用次数: 0

摘要

本研究为ACP1000核电站开发了一种先进的同步发电机高阶模型。将模型转化为状态空间形式，将状态空间模型分解为两个时间尺度的框架。基于同步发电机的动力学特性，识别了快速和慢速状态。通过忽略快速动力学来识别降阶慢模型。在频域中开发了一个闭环模型，将耦合和解耦动力学作为单独的传递函数。闭环模型被配置为输入-输出对，并使用混合分数阶比例-积分-微分滑动表面定向自适应模糊双时标控制算法合成两个控制器。仿真模型是在图形化编程环境LabVIEW中开发的。分别在频域和时域对同步发电机的开环和闭环动力学进行了仿真分析。所提出的闭环框架在性能上是鲁棒的，结果在鲁棒性能范围内是准确和稳定的。

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Modeling and Robust Fractional Order Fuzzy Sliding Mode Two Time Scale Controller Design for Synchronous Generator of ACP1000 Nuclear Power Plant in LabVIEW

A state-of-the-art higher-order model of a synchronous generator is developed for ACP1000 nuclear power plant in the present research. The model is transformed into state space form. The state space model is decomposed into the two-time scale framework. Based on the dynamics of the synchronous generator, fast and slow states are identified. The reduced order slow model is identified by neglecting the fast dynamics. A closed-loop model is developed in the frequency domain incorporating coupled and decoupled dynamics as separate transfer functions. The closed-loop model is configured as input-output pairs and two controllers are synthesized using a hybrid fraction order proportional integral derivative sliding surface oriented adaptive fuzzy two-time-scale control algorithm. The simulation model is developed in the graphical programming environment LabVIEW. The open and closed loop dynamics of the synchronous generator is simulated and analyzed in frequency and time domain separately. The proposed closed-loop framework is robust in performance, results are accurate and stable well within robust performance bounds.

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来源期刊

Proceedings of the Pakistan Academy of Sciences: Part A Computer Science-Computer Science (all)

CiteScore

0.70

自引率

0.00%

发文量