COMPENSATION OF OSCILLATING INSTANTANEOUS POWER IN MODERN MICROGRIDS BASED ON THE CONSERVATIVE POWER THEORY

Eletrônica de Potência Pub Date : 2020-08-18 DOI:10.18618/rep.2020.3.0017

José A. O. Filho, H. Paredes, J. Bonaldo, A. Alonso, F. Marafão, Marcelo Simoes

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Abstract

– Considering the application of multifunctional grid-tied inverters in modern microgrids, this paper proposes a novel control strategy derived from the Conservative Power Theory (CPT), which makes possible the compensation of instantaneous power oscillations. Such approach is based on the instantaneous power and instantaneous reactive energy terms defined by the CPT, allowing the extraction of oscillating power components directly in the abc frame. Simulation results are presented to demonstrate the applicability of the control strategy considering the scenario of a weak microgrid with linear, non-linear, and unbalanced loads, as well as comprising a three-phase multi-functional grid-tied inverter with LCL filter. The results show that active power dispatchability can be offered by the inverter, while concomitantly supporting the microgrid to operate at constant instantaneous power. Experimental results comprising a 3.6 kVA inverter prototype also validate the proposed decomposition of oscillating power terms, showing that they can be satisfactorily employed on compensation purposes.

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基于保守功率理论的现代微电网瞬时振荡功率补偿

-考虑到多功能并网逆变器在现代微电网中的应用，本文提出了一种基于保守功率理论(CPT)的新型控制策略，使瞬时功率振荡补偿成为可能。这种方法基于CPT定义的瞬时功率和瞬时无功功率项，允许直接在abc框架中提取振荡功率分量。仿真结果证明了该控制策略在考虑具有线性、非线性和不平衡负载的弱微电网以及包含LCL滤波器的三相多功能并网逆变器的情况下的适用性。结果表明，逆变器在提供有功功率可调度性的同时，支持微网在恒定瞬时功率下运行。在3.6 kVA逆变器样机上的实验结果也验证了所提出的振荡功率项分解方法，表明该方法可以令人满意地用于补偿目的。

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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Eletrônica de Potência

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