Modelling of an interacting series process for rector cooling system using system identification method

International Journal of Science and Technology Research Archive Pub Date : 2022-11-30 DOI:10.53771/ijstra.2022.3.2.0126

Nur Aina Mohammad Abdul Aziz, Azura Che Soh, Ribhan Zafira Abdul Rahman, Julia Abdul Karim

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Abstract

This research presents the modelling of cooling system plant in the TRIGA PUSPATI reactor (RTP). The RTP cooling system involves the interacting series process which are reactor model and heat exchanger model. The behaviour process is complex due to the nonlinearity, uncertainty, and time variation of the system. Due to the nonlinearity and interacting series process of system, the numerical algorithm for subspace state space system identification (N4SID) was proposed in the modelling of RTP cooling system. However, the model was converted to the transfer function form. The output response from the simulation model of RTP cooling subsystems were analysed by comparing the model with the real operational data. The responses of the model were within the respective range of a good model data. The residual analysis for each output was also calculated. The comparison and residual analysis were done to validate the model accuracy to determine the behaviour of the model. Overall, the model accuracy assessment shows that all models are still fit in the good model region (<10%) and has a good representation of a real plant.

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用系统辨识法对矢量冷却系统的相互作用串联过程进行建模

本文研究了TRIGA PUSPATI反应堆(RTP)冷却系统装置的建模。RTP冷却系统涉及反应器模型和热交换器模型相互作用的一系列过程。由于系统的非线性、不确定性和时变，其行为过程比较复杂。针对RTP冷却系统的非线性和相互作用的系列过程，提出了子空间状态空间系统辨识的数值算法。将模型转换为传递函数形式。通过与实际运行数据的比较，分析了RTP冷却子系统仿真模型的输出响应。模型的响应均在良好模型数据的各自范围内。还计算了每个输出的残差分析。通过对比和残差分析验证了模型的精度，确定了模型的行为。总体而言，模型精度评估表明，所有模型仍然适合于良好的模型区域(<10%)，并且具有良好的真实植物表征。

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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International Journal of Science and Technology Research Archive

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