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首页> 外文期刊>Electric power systems research >An improved dynamic performance of bidirectional SEPIC-Zeta converter based battery energy storage system using adaptive sliding mode control technique
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An improved dynamic performance of bidirectional SEPIC-Zeta converter based battery energy storage system using adaptive sliding mode control technique

机译:基于自适应滑模控制技术的双向SEPIC-Zeta转换器基于电池储能系统的动态性能改进

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摘要

An improved dynamic performance of DC-DC bidirectional SEPIC-Zeta converter based battery energy storage system (BESS) has been achieved using adaptive sliding mode control (SMC) technique. The micro grid concept is gaining importance for integrating various nonconventional energy sources throughout the world. Nowadays, both DC and AC micro-grid systems are employing BESS for getting various advantages such as minimization of power fluctuations, excess or emergency power support etc. In this application, controlled charging and discharging operation of the concerned battery bank is extremely needed. In this scenario, DC to DC bidirectional converter such as combined SEPIC-Zeta converter is considered to facilitate dynamic charging and discharging operation of the concerned battery. Conventional proportional-integral-derivative (PID) controller based control strategy for the bidirectional converter can not always meet the dynamic performance requirements under charging and discharging operation cycles of the battery. Therefore, adaptive SMC action has been proposed to improve both transient and steady state behavior of the BESS. In addition to this, the proposed model can be operated satisfactorily under changed operating condition. The proposed concept is validated via various simulation studies using MATLAB-SIMULINK software. The experimental study is also performed on a prototype of the BESS to validate adaptive SMC case. (C) 2018 Elsevier B.V. All rights reserved.
机译:使用自适应滑模控制(SMC)技术已实现了基于DC-DC双向SEPIC-Zeta转换器的电池储能系统(BESS)的改进的动态性能。微电网概念对于整合全球各种非常规能源变得越来越重要。如今,DC和AC微电网系统都采用BESS来获得各种优势,例如最大程度地减少电源波动,多余或紧急电源支持等。在此应用中,非常需要相关电池组的受控充电和放电操作。在这种情况下,可以考虑使用DC / DC双向转换器(例如SEPIC-Zeta组合转换器)来促进相关电池的动态充电和放电操作。基于常规比例积分微分(PID)控制器的双向转换器控制策略不能始终满足电池充电和放电操作周期下的动态性能要求。因此,已经提出了自适应SMC作用来改善BESS的瞬态和稳态行为。除此之外,所提出的模型可以在变化的运行条件下令人满意地运行。使用MATLAB-SIMULINK软件通过各种仿真研究验证了提出的概念。还对BESS的原型进行了实验研究,以验证自适应SMC案例。 (C)2018 Elsevier B.V.保留所有权利。

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