由光伏电站、电池和准z源级联h桥多电平逆变器组成的微电网的功率共享控制

Pablo Horrillo-Quintero, Pablo García-Triviño, Raúl Sarrias-Mena, C. García-Vázquez, Luis M. Fernández‐Ramírez
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引用次数: 0

摘要

近年来,准z源级联h桥多电平逆变器(qZS-CHBMLIs)已成为将可再生能源整合到公用电网中的一种有趣的解决方案。与传统逆变器相比,它们的主要优点是可以在单级进行功率转换,而无需额外的DC/DC转换器,并且具有更高的电压增益。此外,可以实现每个光伏电站最大功率点跟踪(MPPT)的单独控制。由于光伏电站的间歇性,通常采用电池储能系统(BESS)来平滑光伏发电的波动。本文根据系统操作者的参考资料,提出了输电网有功和无功功率的控制系统和ES-qZS-CHBMLI的EMS。BESS通过基于荷电状态(SOC)的能源管理系统(EMS)进行协调,系统在两种不同的运行模式下进行评估。其中一种是光伏电站按照MPP运行,另一种是MPPT故障,光伏发电功率下降。采用MATLAB-Simulink仿真验证了基于qZSCHBMLI和三个级联qZSI的并网单相配置的控制系统,每个级联qZSI连接4.8 kW光伏发电厂和BESS。
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Power Sharing Control for a Microgrid with PV Power Plants, Batteries and Quasi-Z-source Cascaded H-bridge Multilevel Inverter
In recent years, Quasi-Z-source cascaded H-bridge multilevel inverters (qZS-CHBMLIs) have become an interesting solution for integrating renewable energy into the utility grid. The possibility of performing power conversion in a single stage, without an additional DC/DC converter, and a higher voltage gain, are their main advantages over traditional inverters. In addition, individual control of the maximum power point tracking (MPPT) can be achieved for each PV plant. Owing to the intermittent nature of PV power plants, battery energy storage systems (BESS) are commonly used to smooth out PV power fluctuations. This paper presents a control system for the active and reactive power delivered to the grid according to the system operator references and an EMS for an ES-qZS-CHBMLI. The BESS is coordinated through an energy management system (EMS) based on the state of charge (SOC) The system is evaluated under two different operation modes. One of them, where the PV power plants operate according to their MPP and the other in which the MPPT faults and thus, the PV power is decreased. A MATLAB-Simulink simulation is used to validate the proposed control system for a grid-connected single-phase configuration based on a qZSCHBMLI with three cascade qZSI, each connected to a 4.8 kW PV power plant and a BESS.
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来源期刊
Renewable Energy and Power Quality Journal
Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology
CiteScore
0.70
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0.00%
发文量
147
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