Predictive Direct Power Control of Doubly Fed Induction Generators to Reduce the Power Ripple During the Grid Synchronization

IF 0.3 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Ghazaleh Sarfi, M. Kalantar
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引用次数: 0

Abstract

This paper presents a new method of predicting power based on predictive direct power control. This method reduces power ripple in a doubly fed induction generator, which makes it possible to have a smoother synchronization with the grid in low constant frequency switching. To achieve fast and smooth grid synchronization without any over current, the difference between the measure, frequency, and the phase of the stator voltage and the grid voltage should be minimized. This condition can be achieved by minimizing the error between active and reactive virtual power and their references. By predicting the virtual active and reactive power behavior and choosing different active voltage vectors and using each of them at different times among each period time, the best switching of the rotor side converter in doubly fed induction generator to have a smoother condition can be chosen. In this paper, a 15kw generator is simulated by the classic method which is direct power control, and this new method, predictive direct power control, and it will be shown how much the new method reduces the power ripple to have a smoother synchronization that doesn’t cause mechanical or electrical pressure for none of the grid and the doubly fed induction generator.
双馈感应发电机预测直接功率控制以减小电网同步时的功率纹波
提出了一种基于预测直接功率控制的功率预测新方法。该方法减小了双馈感应发电机的功率纹波,使低恒频开关与电网的同步更加平滑。为了实现快速平稳的电网同步而不产生过电流,定子电压的测量值、频率和相位与电网电压之间的差应最小化。这一条件可以通过最小化有功和无功虚功率与其参考之间的误差来实现。通过对虚拟有功和无功行为的预测,选择不同的有功电压矢量,并在每个周期时间内的不同时间使用,可以选择双馈异步发电机转子侧变流器的最佳开关,使其处于更平稳的状态。本文以一台15kw发电机为例,分别采用经典的直接功率控制方法和预测直接功率控制方法对其进行了仿真,并展示了新方法对功率纹波的减小程度,从而实现了对电网和双馈感应发电机均不产生机械或电气压力的平滑同步。
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来源期刊
International Journal of Power and Energy Systems
International Journal of Power and Energy Systems ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
1.00
自引率
0.00%
发文量
5
期刊介绍: First published in 1972, this journal serves a worldwide readership of power and energy professionals. As one of the premier referred publications in the field, this journal strives to be the first to explore emerging energy issues, featuring only papers of the highest scientific merit. The subject areas of this journal include power transmission, distribution and generation, electric power quality, education, energy development, competition and regulation, power electronics, communication, electric machinery, power engineering systems, protection, reliability and security, energy management systems and supervisory control, economics, dispatching and scheduling, energy systems modelling and simulation, alternative energy sources, policy and planning.
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