基于标量dvc控制的光伏抽水系统研究

2013 International Conference on Electrical Engineering and Software Applications Pub Date : 2013-03-21 DOI:10.1109/ICEESA.2013.6578461

N. Rebei, B. Benghanem, Ali Hmidet, O. Hasnaoui

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引用次数: 7

摘要

本文旨在实现光伏水泵系统的控制。该研究由光伏发电机、逆变器、感应电机和离心泵作为机械负载组成。用于全局仿真的模型为闭环模型:PVG模型的电压输出与逆变-感应电机模型的电压输入耦合;后者的当前输出与PVG的当前输入相结合。本研究提出的控制策略包括:1)利用太阳能抽水;2)在恒磁通和变电压下驱动机器。本课题采用基于闭环标量的控制律，通过直接电压控制(DVC)逆变器进行控制。根据能量守恒理论给出的最大功率，保证了控制速度。感应电机模型是基于dq正交帕克参考系中的经典动力学模型。仿真结果验证了整个模型的有效性，以及该方法的有效性、可行性和局限性。

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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Study of photovoltaic water pumping system using scalar-DVC based control

This paper aims to achieve a control of a photovoltaic water pumping system. The study consists of a photovoltaic generator, an inverter, an induction motor and a centrifugal pump as mechanical load. The model used for global simulation is a closed loop model: the voltage output of PVG model is coupled with the voltage input of the inverter-induction motor model; the current output of this latter is coupled with the current entry of the PVG. The strategy control proposed in this study consist to i) pumping water with Solar energy, ii) drives the machine in constant flux and variable voltage for this subject a closed loop scalar based control law via a direct voltage control (DVC) inverter is used. The MPPT is given by the theory of conservation of energy ensures the control speed. The induction motor model is based on the classic dynamic model in the dq orthogonal Park reference frame. Simulations results confirm the working of the complete model and the effectiveness, feasibility and limits of such approach.

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2013 International Conference on Electrical Engineering and Software Applications

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