FOFFT Based Grid Connected PMS Motor Driven Solar Water Pumping With Improved Power Quality

2021 Emerging Trends in Industry 4.0 (ETI 4.0) Pub Date : 2021-05-19 DOI:10.1109/ETI4.051663.2021.9619266

Apoorva Sharma, Tripurari Nath Gupta, Sanjay Kumar Peeploda

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Abstract

This paper contributes for the development of a novel technique for solar energized grid integrated water pumping system which is driven through PMS motor. The impetus for proposing this technique is to provide incessant operation of a water pumping system without accounting for variations in solar insolation with improved power quality. When the power extracted from PV exceeds to the pump load requirement, the excess power is fed to the linked grid, and if the PV power is not sufficient to operate the pumping system, the grid supplies the remaining power to keep the pumping system running continuously. By improving the power quality, the system becomes more reliable, accurate, and effective. Here, system is tested through a logic in which, if irradiance is above 500 W=m2, solar energy is fed to grid after feeding the pump load demand and refrence speed for the pump is evaluated based on the solar generation. On the other hand if irrdiance is below 500 W=m2, PV power is not able to match the pump demand. In this condition the pump is supplied by the PV array as well as grid and reference pump speed is set to the rated speed for full capacity operation as the utility grid is infinite source. To make such system, we have connected a voltage source converter for utility grid control and a voltage source inverter for PMS motor control to the dc link. Unit vector template theory is also used to control the bidirectional power flow between a solar PV system and the linked utility grid. For filtering the polluted grid voltage and estimating synchronising components, a FOFFT (Fourth Order Fundamental Filtration Technique) based control algorithm is used. The incremental conductance technique is used to obtain the duty ratio for MPP operations in MPP tracking. The sensorless vector control technique is used to control the speed of the PMS motor. MATLAB/Simulink is used to develop and test the proposed methodology.

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基于FOFFT的并网PMS电机驱动太阳能水泵电能质量改进研究

本文提出了一种基于PMS电机驱动的太阳能并网综合抽水系统的新技术。提出这项技术的动力是提供不间断的水泵系统运行，而不考虑太阳日照的变化，提高电力质量。当从光伏发电中提取的功率超过泵负荷要求时，多余的功率将被馈送到连接的电网，如果光伏发电功率不足以运行抽水系统，则电网提供剩余的功率以保持抽水系统的持续运行。通过提高电能质量，使系统更加可靠、准确和有效。在这里，系统通过一个逻辑进行测试，其中，如果辐照度大于500w =m2，则在满足泵负荷需求后将太阳能馈送到电网，并根据太阳能发电量评估泵的参考转速。另一方面，当辐照度低于500w =m2时，光伏发电无法满足泵的需求。在这种情况下，泵由光伏阵列和电网供电，参考泵转速设置为满负荷运行时的额定转速，因为公用事业电网是无限源。为了实现这样的系统，我们在直流链路上连接了一个用于公用电网控制的电压源变换器和一个用于PMS电机控制的电压源逆变器。单位矢量模板理论也被用于控制太阳能光伏系统和连接的公用事业电网之间的双向功率流。为了滤波污染电网电压和估计同步分量，采用了一种基于四阶基频滤波技术的控制算法。在MPP跟踪中，采用增量电导技术获得了MPP操作的占空比。采用无传感器矢量控制技术对永磁同步电机的速度进行控制。使用MATLAB/Simulink开发和测试了所提出的方法。

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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2021 Emerging Trends in Industry 4.0 (ETI 4.0)

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