利用主动撬棍组合控制改进dfig风力发电系统暂态性能

Q1 Social Sciences

Electricity Journal Pub Date : 2023-11-14 DOI:10.3390/electricity4040019

Muhammad Arif Sharafat Ali

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引用次数: 0

摘要

双馈感应发电机(DFIG)易受电网故障影响，转子回路中会产生较大的电动势。因此，必须通过适当的控制动作来提高系统性能，以成功地抵消这些异常，以便在电网干扰期间提供一致和稳定的运行。在这方面，本文提出了一种基于储能撬棍和转子侧撬棍相结合的解决方案，使风力驱动DFIG的瞬态电流和电压有效抑制成为可能。该解决方案的核心是能够将瞬态转子和定子过电流以及直流链路过电压限制在规定的范围内，从而保护DFIG和功率转换器，并提高系统穿越故障的能力。此外，估计了用于瞬态抑制的储能装置的容量。结果表明，该方法不仅能在系统发生严重故障时，将转子和定子电流暂态控制在额定值的±50%以内，还能将直流电压变化控制在额定值的±15%以内，准确实现暂态控制目标，并能在故障时保持电网稳定连接。

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Improved Transient Performance of a DFIG-Based Wind-Power System Using the Combined Control of Active Crowbars

A significant electromotive force is induced in the rotor circuit of a doubly fed induction generator (DFIG) due to its high vulnerability to grid faults. Therefore, the system performance must be increased with appropriate control actions that can successfully offset such abnormalities in order to provide consistent and stable operations during grid disturbances. In this regard, this paper presents a solution based on a combination of an energy storage-based crowbar and a rotor-side crowbar that makes the effective transient current and voltage suppression for wind-driven DFIG possible. The core of the solution is its ability to restrict the transient rotor and stator overcurrents and DC-link overvoltages within their prescribed limits, thereby protecting the DFIG and power converters and improving the system’s ability to ride through faults. Further, the capacity of an energy storage device for transient suppression is estimated. The results confirmed that the proposed approach not only kept the transient rotor and stator currents within ±50% of their respective rated values in severe system faults but also limited the DC-link voltage variations under ±15% of its rated value, achieving transient control objectives precisely and maintaining a stable grid connection during the faults.

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来源期刊

Electricity Journal Business, Management and Accounting-Business and International Management

CiteScore

5.80

自引率

0.00%

发文量

审稿时长

31 days

期刊介绍： The Electricity Journal is the leading journal in electric power policy. The journal deals primarily with fuel diversity and the energy mix needed for optimal energy market performance, and therefore covers the full spectrum of energy, from coal, nuclear, natural gas and oil, to renewable energy sources including hydro, solar, geothermal and wind power. Recently, the journal has been publishing in emerging areas including energy storage, microgrid strategies, dynamic pricing, cyber security, climate change, cap and trade, distributed generation, net metering, transmission and generation market dynamics. The Electricity Journal aims to bring together the most thoughtful and influential thinkers globally from across industry, practitioners, government, policymakers and academia. The Editorial Advisory Board is comprised of electric industry thought leaders who have served as regulators, consultants, litigators, and market advocates. Their collective experience helps ensure that the most relevant and thought-provoking issues are presented to our readers, and helps navigate the emerging shape and design of the electricity/energy industry.