气候变化领域集成服务门户(CCPortal): Optimal controller design for reactor core power stabilization in a pressurized water reactor: Applications of gold rush algorithm

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DOI	10.1371/journal.pone.0296987
	Optimal controller design for reactor core power stabilization in a pressurized water reactor: Applications of gold rush algorithm
	Abdelfattah, H.; Esmail, M.; Kotb, Said A.; Mahmoud, Mohamed Metwally; Hussein, Hany S.; Wapet, Daniel Eutyche Mbadjoun; Omar, Ahmed I.; Ewais, Ahmed M.
发表日期	2024
ISSN	1932-6203
起始页码	19
结束页码	1
卷号	19 期号:1
英文摘要	Nuclear energy (NE) is seen as a reliable choice for ensuring the security of the world's energy supply, and it has only lately begun to be advocated as a strategy for reducing climate change in order to meet low-carbon energy transition goals. To achieve flexible operation across a wide operating range when it participates in peak regulation in the power systems, the pressurised water reactor (PWR) NE systems must overcome the nonlinearity problem induced by the substantial variation. In light of this viewpoint, the objective of this work is to evaluate the reactor core (main component) of the NE system via different recent optimization techniques. The PWR, which is the most common form, is the reactor under investigation. For controlling the movement of control rods that correspond with reactivity for power regulation the PWR, PID controller is employed. This study presents a dynamic model of the PWR, which includes the reactor core, the upper and lower plenums, and the piping that connects the reactor core to the steam alternator is analyzed and investigated. The PWR dynamic model is controlled by a PID controller optimized by the gold rush optimizer (GRO) built on the integration of the time-weighted square error performance indicator. Additionally, to exhibit the efficacy of the presented GRO, the dragonfly approach, Arithmetic algorithm, and planet optimization algorithm are used to adjust the PID controller parameters. Furthermore, a comparison among the optimized PID gains with the applied algorithms shows great accuracy, efficacy, and effectiveness of the proposed GRO. MATLAB\ Simulink program is used to model and simulate the system components and the applied algorithms. The simulation findings demonstrate that the suggested optimized PID control strategy has superior efficiency and resilience in terms of less overshoot and settling time.
语种	英语
WOS研究方向	Science & Technology - Other Topics
WOS类目	Multidisciplinary Sciences
WOS记录号	WOS:001161235600037
来源期刊	PLOS ONE
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/302856
作者单位	Egyptian Knowledge Bank (EKB); Suez University; Egyptian Knowledge Bank (EKB); Egyptian Atomic Energy Authority (EAEA); Egyptian Knowledge Bank (EKB); Aswan University; King Khalid University; Egyptian Knowledge Bank (EKB); Aswan University; University of Yaounde I; El Shorouk Academy
推荐引用方式 GB/T 7714	Abdelfattah, H.,Esmail, M.,Kotb, Said A.,et al. Optimal controller design for reactor core power stabilization in a pressurized water reactor: Applications of gold rush algorithm[J],2024,19(1).
APA	Abdelfattah, H..,Esmail, M..,Kotb, Said A..,Mahmoud, Mohamed Metwally.,Hussein, Hany S..,...&Ewais, Ahmed M..(2024).Optimal controller design for reactor core power stabilization in a pressurized water reactor: Applications of gold rush algorithm.PLOS ONE,19(1).
MLA	Abdelfattah, H.,et al."Optimal controller design for reactor core power stabilization in a pressurized water reactor: Applications of gold rush algorithm".PLOS ONE 19.1(2024).