弱电网稳定下光伏并网逆变器负载有功和无功需求动态研究

2021 International Seminar on Intelligent Technology and Its Applications (ISITIA) Pub Date : 2021-07-21 DOI:10.1109/ISITIA52817.2021.9502209

Shaka Kargbo, Hermawan, S. Handoko, I. Setiawan, T. Andromeda

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引用次数: 1

摘要

在弱电网络中对感性负载进行激励需要额外的无功补偿，如STATCOM、电容器组、并网逆变器系统等。光伏并网电力系统的优化，将无功补偿限制在逆变器容量和寿命周期的考虑范围内。在平衡这两个限制时，过大的逆变器可以使无功功率注入具有长寿命的运行。然而，允许过大的无功潮流也会影响感性负载的有功功率需求。本文对三相并网光伏逆变器进行了仿真，研究了逆变器和负载在向电网注入负载维持足够电压所需的无功功率时的行为。逆变器尺寸过大，交直流比为1.60。系统采用直接在线方式对5ph的感应电机进行白天和夜间的启动运行模拟。仿真结果表明，在对高无功功率进行补偿时，电机功率吸收不足。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PV Grid Inverter Dynamics on Load Active and Reactive Power Demand for Weak Grid Stability

Energizing inductive loads on a weak grid network requires extra reactive power compensation such as STATCOM, capacitor bank, Grid-connected inverter system etc. The optimization of photovoltaic grid-connected power systems has limited the reactive power compensation to the inverter’s capacity and consideration of its life cycle. In balancing the two limitations, oversizing the inverter can enable reactive power injection with a long-living operation. However, allowing excessive reactive power flow can also affect the active power requirement of the inductive loads. In this paper, a three-phase Grid-connected PV inverter simulation is made to investigate the inverter’s and load’s behavior when injecting reactive power required by the load to maintain a sufficient voltage on the grid. The inverter was oversized to a 1.60 AC-DC ratio. The system is simulated on the day and night motor startup operation with a 5ph induction motor started on the direct online method. The simulation results show that the motor power absorption is deficient when high reactive power is compensated.

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2021 International Seminar on Intelligent Technology and Its Applications (ISITIA)

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