Reverse flow transition control mechanism with maximum power point controlling (MPPT) technique for solar PV application

IF 1 4区工程技术 Q3 ENGINEERING, MULTIDISCIPLINARY

Journal of the Chinese Institute of Engineers Pub Date : 2023-11-03 DOI:10.1080/02533839.2023.2274084

D. Bharathy Priya, A. Sumathi

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引用次数: 0

Abstract

ABSTRACTSatisfying the growing energy demand with various power resources is one of the crucial areas. Most of the grid-based industries have come forward to install solar-based photovoltaic (PV) systems to lower energy costs. Due to its simple accessibility and streamlined panel structure of solar PV, this is widely used in many application environments. Maximum Power Point Controlling (MPPT) technique is one of the extensively used controlling techniques that use standard controls like Proportional Integral (PI) and Proportional Integral Derivative (PID) for power extraction. Some hybrid control mechanisms are used in traditional solar PV systems, limiting the issues of increased time consumption, reduced efficiency, and increased THD. For this purpose, this paper intends to develop a new controlling technique named Reverse Flow Transition Control (RFTC) with the MPPT technique to provide power output. Also, the Bidirectional Buck-Boost (BBB) is implemented to increase the efficiency of the controlling scheme. Moreover, this paper developed an optimization-based controlling technique for attaining a reliable converter, and controller design results are validated for the proposed controller technique.CO EDITOR-IN-CHIEF: KuoCheng-ChienASSOCIATE EDITOR: KuoCheng-ChienKEYWORDS: Photovoltaic (PV) systemreverse flow transition control (RFTC)bi-directional buck-boost (BBB) convertermaximum peak point Tracking (MPPT) Nomenclature AUPQS=Advanced Universal Power Quality Conditioning SystemBA=Bat algorithmBBB=Bidirectional Buck-BoostCCM=Continuous Conduction ModeFFT=Fast Fourier transformHVDC=High Voltage Direct CurrentLCL=Inductor-capacitor-inductorLLLAD=Leaky Least Logarithmic Absolute DifferenceMp=Maximum peak point of PVMPPT=Maximum Power Point ControllingP&O=Perturbation and ObservationPI=Proportional IntegralPID=Proportional Integral DerivativePOFO-SMC=Perturbation Observer-based Functional Order Sliding Mode ControllerPV=PhotovoltaicRES=Renewable Energy SourceRFTC=Reverse Flow Transition ControlSiC MOSFET=Silicon-Carbide Metal Oxide Semiconductor field-effect transistorSVPWM=Space Vector Pulse Width ModulationTHD=Total harmonic distortionVC1iC1=Voltage and current capacitanceVL1iL1=Voltage and current inductanceVpIp=Peak voltage and currentVpvipv=Photovoltaic voltage and currentVRsiRs=Voltage and current resistanceDisclosure statementNo potential conflict of interest was reported by the author(s).

查看原文本刊更多论文

应用于太阳能光伏发电的最大功率点控制(MPPT)技术的逆流转换控制机制

摘要利用多种电力资源来满足日益增长的能源需求是关键领域之一。大多数以电网为基础的行业已经开始安装太阳能光伏(PV)系统，以降低能源成本。由于太阳能光伏的易接近性和流线型的面板结构，在许多应用环境中得到了广泛的应用。最大功率点控制(MPPT)技术是一种广泛使用的控制技术，它使用比例积分(PI)和比例积分导数(PID)等标准控制来进行功率提取。传统的太阳能光伏系统中使用了一些混合控制机制，限制了时间消耗增加、效率降低和THD增加的问题。为此，本文拟开发一种利用MPPT技术提供功率输出的新型控制技术——逆流过渡控制(RFTC)。此外，为了提高控制效率，还采用了双向降压-升压(BBB)技术。此外，本文还开发了一种基于优化的控制技术来实现可靠的变换器，并对所提出的控制器技术的控制器设计结果进行了验证。副主编:郭承谦光伏(PV)系统逆流转换控制(RFTC)双向buck-boost (BBB)转换器最大峰值点跟踪(MPPT)术语AUPQS=先进通用电能质量调节系统ba =Bat算法BBB=双向buck-boost ccm =连续传导模型fft =快速傅立叶变换hvdc =高压直流电cl =电感-电容-电感lllad =泄漏最小对数绝对差emp = PVMPPT的最大峰值点=最大功率点控制p&o =扰动和观测pi =比例积分pid =比例积分导数pofo - smc =基于摄动观测器的功能阶滑模控制器pv=光伏res =可再生能源cerftc =逆流跃迁控制sic MOSFET=碳化硅金属氧化物半导体场效应晶体管svpwm =空间矢量脉宽调制thd =总谐波畸变vc1ic1 =电压和电流电容evl1il1 =电压和电流电感evpip =峰值电压和电流vpvipv =光伏电压和电流vrsirs =电压和电流电阻披露声明作者未报告潜在的利益冲突。

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来源期刊

Journal of the Chinese Institute of Engineers 工程技术-工程：综合

CiteScore

2.30

自引率

9.10%

发文量

审稿时长

6.8 months

期刊介绍： Encompassing a wide range of engineering disciplines and industrial applications, JCIE includes the following topics: 1.Chemical engineering 2.Civil engineering 3.Computer engineering 4.Electrical engineering 5.Electronics 6.Mechanical engineering and fields related to the above.