6kwp蓄电池并网光伏电站详细设计:第一部分-中央逆变器基准研究与仿真

M. Khelif
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引用次数: 0

摘要

可再生能源发电的分布式和间歇性特征是优化并网系统在效率、质量和可靠性方面的主要挑战。对于光伏太阳能转换,其性能主要与直流-交流阶段有关,并网逆变器控制策略设计成为一个重要的研究课题,为日益具有挑战性的电网技术法规(电网规范)提供答案。作为有功功率双向运行的先决条件,这里假定蓄电池组作为直接连接在DC-DC和DC-AC级之间的能量缓冲器。因此,施加恒定直流链路电压引起的强去耦效应允许分别对两个部分进行分析和设计。在这种情况下,作为整体设计项目的第一部分,使用滞后电流控制(HCC)策略的并网逆变器被预先设计和优化,作为开环,双向DC-AC功率转换器基准。预见到实际实现的主要制约因素,采用了一种原始的线路电感定径工艺来限制最大开关频率。然后,利用Matlab/Simulink环境下SimPowerSystems工具箱中丰富的电气工程库,对设计的并网装置进行了详细的仿真分析。此外,设计了特定的控制电路,以产生相应的交流参考电流,并允许双向有功和无功潮流解耦控制。最后,严格再现计划实现的详细和现实的架构,所得到的直流-交流级结构作为功率转换器提交了许多验证测试,可以进一步包括在简单但鲁棒的有功和无功功率控制闭环中。
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Detailed Design of a 6 KWp Grid Connected PV Plant with Storage Batteries: Part-I- Central Inverter Benchmark Study & Simulation
The distributed and intermittent characters of electrical energy production from renewable resources constitute the main challenges in the way of optimising the power transfer for grid connected systems in terms of efficiency, quality and reliability. Concerning the photovoltaic solar energy conversion, such performances being mainly related to the DC-AC stage, the grid connected inverter control strategy design became a major research subject to bring answers for the ever challenging grid technical regulations (grid codes). As a prerequisite option for active power bi-directional operation, the storage batteries pack is assumed here as an energy buffer directly connected between the DC-DC and DC-AC stages. As a consequence, the strong decoupling effect induced by imposing a constant DC link voltage, allows conducting the analysis and design of both parts separately. In this context and as part- I of the overall undertaken design project, a grid connected inverter using a hysteresis current control (HCC) strategy is pre-designed and optimised to serve as an open loop, bidirectional DC-AC power converter benchmark. Foreseeing the main practical realization constraints, an original sizing process of the associated line inductor is applied to limit the maximum switching frequency. Then, making use of the rich electrical engineering library of the SimPowerSystems toolbox under Matlab/Simulink environment, the designed grid connected installation is analysed through detailed simulations. Furthermore, particular control circuits are elaborated to generate properly the corresponding AC current reference and allow bi-directional active and reactive power flow decoupled control. Finally, reproducing tightly the detailed and realistic architecture of the planned realization, the resulting DC-AC stage structure is submitted to numerous validating tests as a power converter which may be further included in simple but robust active and reactive power control closed loops.
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