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Impact of ultracapacitor and redox flow battery with JAYA optimization for frequency stabilization in linked photovoltaic‐thermal system
International Transactions on Electrical Energy Systems ( IF 1.9 ) Pub Date : 2021-03-25 , DOI: 10.1002/2050-7038.12883 Gulshan Sharma 1 , Narayanan Krishnan 2 , Yogendra Arya 3 , Akhilesh Panwar 4
International Transactions on Electrical Energy Systems ( IF 1.9 ) Pub Date : 2021-03-25 , DOI: 10.1002/2050-7038.12883 Gulshan Sharma 1 , Narayanan Krishnan 2 , Yogendra Arya 3 , Akhilesh Panwar 4
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This paper presents an initial work to design frequency stabilization strategies through, I, PI, PID, ID, and IDD calculated via the JAYA optimization process for load frequency control (LFC) framework of photovoltaic (PV) and thermal generators linked via AC tie‐line. Firstly, a comparative analysis of all LFC designs is conducted for typical load alterations, and the LFC recital is evaluated on basis of pick‐up value, inverse absolute error (IAE), inverse time multiplied by absolute error (ITAE) and the interpretation of graphical results. Additionally, the effects of an ultracapacitor combined with a redox flow battery and an ultracapacitor in each zone of the PV‐thermal system is also investigated and evaluated to improve the results of the PV‐thermal system. Finally, the effectiveness of the proposed plan is assessed for nonlinearity, continuous load alteration, and broad parametric varieties from the ordinary plant values. The application results are presented to show the novelty and benefits of the proposed work.
中文翻译:
JAYA优化超级电容器和氧化还原液流电池对光伏热电联产系统频率稳定的影响
本文介绍了通过I,PI,PID,ID和IDD设计频率稳定策略的初步工作,这些策略是通过JAYA优化过程计算得出的,用于光伏(PV)和热发电机的负载频率控制(LFC)框架,并通过AC连接链接到热发电机。线。首先,对所有LFC设计的典型负载变化进行比较分析,并基于拾取值,反绝对误差(IAE),反时间乘以绝对误差(ITAE)以及对LFC的解释来评估LFC演奏会。图形结果。此外,还研究并评估了超级电容器,氧化还原液流电池和超级电容器在光伏热系统各个区域的作用,并进行了评估,以改善光伏热系统的效果。最后,针对非线性因素评估了所提出计划的有效性,连续的负载变化,以及从普通工厂值获得的广泛参数变化。提出了应用结果,以显示所提出工作的新颖性和益处。
更新日期:2021-05-03
中文翻译:
JAYA优化超级电容器和氧化还原液流电池对光伏热电联产系统频率稳定的影响
本文介绍了通过I,PI,PID,ID和IDD设计频率稳定策略的初步工作,这些策略是通过JAYA优化过程计算得出的,用于光伏(PV)和热发电机的负载频率控制(LFC)框架,并通过AC连接链接到热发电机。线。首先,对所有LFC设计的典型负载变化进行比较分析,并基于拾取值,反绝对误差(IAE),反时间乘以绝对误差(ITAE)以及对LFC的解释来评估LFC演奏会。图形结果。此外,还研究并评估了超级电容器,氧化还原液流电池和超级电容器在光伏热系统各个区域的作用,并进行了评估,以改善光伏热系统的效果。最后,针对非线性因素评估了所提出计划的有效性,连续的负载变化,以及从普通工厂值获得的广泛参数变化。提出了应用结果,以显示所提出工作的新颖性和益处。
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