Performance Analysis of Three-Phase Solar PV Integrated UPQC Using Space Vector Technique

Volume 5, Issue 4 Pub Date : 2020-10-12 DOI:10.46243/jst.2020.v5.i5.pp140-148

J. Sandhya, N. Sirisha

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Abstract

: Due to the increase of load demand in future, the generation must also increase. The use of traditional resources such as coal, diesel fuels etc., causes global warming which is leading us to shift to renewable energy resources. Renewable energy resources may in include solar, wind, tidal as the source for production. These are used in small quantities as Distribution Generators (DG) at different locations in a bus system. As the generation of these sources is less when connected to grid, we call them as micro-grids. These micro grids generally use these DGs to distribute power to loads, and involve power electronic elements to control the generation. It induces energy into the system but also create a problem of harmonic distortions and voltage sags. To eliminate these sags and harmonics in the micro grid system caused by the power electronic devices employed by the renewable sources, we induce a UPQC (Unified Power Quality Conditioner) system. The UPQC system eliminates the harmonics in the systems and restores the voltage of the micro-grid system. We introduce a new topology called instantaneous reactive power (IRP) theory in the UPQC control to operate in a more efficient way, by utilizing RES (Renewable Energy Sources) at the DC-link. The RES support the UPQC system by injecting the active power generated by the resources through DC-link.

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基于空间矢量技术的三相太阳能光伏集成upqc_性能分析

由于未来负荷需求的增加，发电量也必须增加。使用传统资源，如煤、柴油等，导致全球变暖，这促使我们转向可再生能源。可再生能源包括太阳能、风能、潮汐能等。它们作为配电发电机(DG)在总线系统的不同位置少量使用。由于这些能源接入电网后发电量减少，我们称之为微电网。这些微电网通常使用这些edg将电力分配给负载，并涉及电力电子元件来控制发电。它将能量引入系统，但也会产生谐波失真和电压下降的问题。为了消除由可再生能源使用的电力电子设备引起的微电网系统中的这些凹陷和谐波，我们引入了UPQC(统一电能质量调节器)系统。upqc系统消除了系统中的谐波，恢复了微电网系统的电压。我们在UPQC控制中引入了一种称为瞬时无功功率(IRP)理论的新拓扑，通过在直流链路上利用RES(可再生能源)，以更有效的方式运行。RES通过DC-link将资源产生的有功功率注入UPQC系统。

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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Volume 5, Issue 4

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