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引用次数: 0
摘要
目的电能弹簧(ES)是一种需求响应方法,可稳定关键负载的电压并改善电能质量,尤其是在可再生能源比例较高的弱电网中。现有的电弹簧大多采用电压源逆变器(VSI),这种逆变器存在一些缺陷。例如,直流链路电容器限制了 ES 的使用寿命,电池成本高且难以回收。此外,传统的 VSI 无法升压,限制了 ES 在高压场合的应用。本研究旨在提出一种新型 ES 方案来解决上述问题。在本研究中,提出了一种基于无电池电流源逆变器(CSI)的 ES 拓扑,并提出了一种直流控制策略。首次提出了基于无电池 CSI 的 ES 拓扑,降低了 ES 的成本,延长了 ES 的使用寿命。提出了一种新型控制策略,以实现电压调节和谐波抑制功能。
Design and analysis of electric spring based on battery-less current-source inverter
Purpose
Electric spring (ES) is a demand response method that can stabilize the voltage of critical loads and improve power quality, especially in a weak power grid with a high proportion of renewable energy sources. Most of existing ESs are implemented by voltage-source inverter (VSI), which has some shortcomings. For example, the DC-link capacitor limits the service life of ES, and the battery is costly and hard to recycle. Besides, conventional VSI cannot boost the voltage, which limits the application of ES in high-voltage occasions. This study aims to propose a novel scheme of ES to solve the above problems.
Design/methodology/approach
In this work, an ES topology based on current-source inverter (CSI) without a battery is presented, and a direct current control strategy is proposed. The operating principles, voltage regulation range and parameter design of the proposed ES are discussed in detail.
Findings
The proposed ES is applicable to various voltage levels, and the harmonics are effectively suppressed, which have been validated via the experimental results in both ideal and distorted grid conditions.
Originality/value
An ES topology based on battery-less CSI is proposed for the first time, which reduces the cost and prolongs the service time of ES. A novel control strategy is proposed to realize the functions of voltage regulation and harmonic suppression.
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