A. Morsli, A. Tlemçani, A. Moualdia, L. Zellouma, M. Boucherit, N. Henini
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引用次数: 0
摘要
本文提出了一种基于MATLAB/Simulink的并联有源电力滤波系统的研究、仿真和实现,以提高系统的电能质量。让我们从低压电力系统的问题开始,我们看到电网中由非线性负载电压整流器,电动机,变压器等施加的谐波,这些谐波一方面污染了供电网络,另一方面恶化了电气设备。为了解决这个问题,我们在电源和负载之间的网络中并联了一个电压逆变器(我们的情况是整流器)。通过应用直接功率控制(DPC)来抵消所有谐波,从而产生电流。在实验室的试验台上得到的结果与模拟得到的结果非常接近。然后,系统参数的选择给我们提供了良好的电能质量。因此它们满足小于5的必要条件(THDis)% and ($(\cos \varphi )$ is close to unity) according to the recommendation IEEE519.
Experimental Validation of a Shunt Active Power Filtering System for Improvement the Energy Quality employing the Direct Power Control
This paper proposes a study, simulation for MATLAB/Simulink and realization of a shunt active power filtering system to improve the energy quality of the system. Let’s start with the problematic imposed on the low-voltage power system where we see the harmonics in the power grid imposed by the non-linear load voltage rectifier, electric motor, transformer, etc These harmonics pollute the supply network on the one hand and deteriorate the electrical devices on the other hand. To solve this problem, we have mounted a voltage inverter in parallel in the network between the power source and the load (our case a rectifier). This produces currents by offsetting all harmonics by applying direct power control (DPC). The results obtained in the laboratory by a test bench clearly show us that the graphs are similar with those obtained by the simulation. Then, the choice of the parameters of the system gave us a good quality of electrical energy. Thus, they meet the necessary conditions (THDis) less than 5% and ($(\cos \varphi )$ is close to unity) according to the recommendation IEEE519.
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