Differential Power Processing-based Constant Power Generation towards Grid-friendly Photovoltaic System

Mohsen Hosseinzadehtaher, M. Greidanus, Hassan Althuwaini, Kyle Sullivan, M. Shadmand, S. Mazumder
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引用次数: 1

Abstract

This paper proposes an efficient constant power generation (CPG) control scheme for photovoltaic systems (PV) by utilizing differential power processing (DPP) converters. The conventional CPG approaches will become nearly ineffective for PV modules under partial shading conditions; thus, resulting in propagation of disturbances in high PV penetrated grids. The goal of this paper is to realize a more effective dispatchable PV power generation under partial shading conditions to mitigate wide range of disturbances at the grid-edge. The proposed approach is to leverage DPP converters to improve power harvesting when the PV systems encounter partial shading while ensuring CPG for wide range of PV modules’ condition. Several case studies are presented to demonstrate the functionality of the proposed approach for achieving CPG. The provided comparison between the proposed and state-of-the-art CPG approaches demonstrates promising superiority for realizing grid-friendly PV systems.
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面向电网友好型光伏系统的差分功率处理恒功率发电
本文提出了一种利用差分功率处理(DPP)变流器的光伏系统恒功率(CPG)高效控制方案。在部分遮阳条件下,传统的CPG方法对光伏组件几乎无效;因此,导致干扰在高PV穿透电网中传播。本文的目标是在部分遮阳条件下实现更有效的可调度光伏发电,以减轻电网边缘的大范围干扰。提出的方法是利用DPP转换器在光伏系统遇到部分遮阳时改善电力收集,同时确保CPG适用于广泛的光伏模块条件。提出了几个案例研究来证明所提出的实现CPG的方法的功能。所提出的和最先进的CPG方法之间的比较显示了实现电网友好型光伏系统的有希望的优势。
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