A Transformless Electric Spring with Decoupled Real and Reactive Power Control

机译：具有去耦有功和无功控制的无变换电弹簧

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摘要

The electric spring has emerged as a promising technique to stabilize electrical grids with high penetration of renewable energy sources. In response to the grid frequency deviation, electric springs can flexibly regulate the noncritical load power. However, the previous versions of electric springs either suffer from the coupling effect between real and reactive powers, or require associated energy storage systems, or need an extra low-frequency transformer for the isolation purpose. To overcome these shortcomings, a transformless electric spring and its associated control strategy are proposed in this paper. The proposed electric spring can independently regulate the real and reactive power without using batteries for maintaining the DC-link voltage or handling power flow. Finally, real time hardware-in-loop (HIL) simulation results are provided for verification.

机译：电弹簧已成为一种有前途的技术，可通过可再生能源的高渗透率来稳定电网。响应电网频率偏差，电弹簧可以灵活地调节非临界负载功率。然而，先前版本的电弹簧或者遭受有功功率和无功功率之间的耦合效应，或者需要相关的能量存储系统，或者需要用于隔离目的的额外的低频变压器。为了克服这些缺点，本文提出了一种不变形电弹簧及其相关的控制策略。所提出的电弹簧可以独立地调节有功功率和无功功率，而无需使用电池来维持直流母线电压或处理功率流。最后，提供了实时硬件在环（HIL）仿真结果以供验证。

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来源
《IEEE International Future Energy Electronics Conference》|2019年|1-6|共6页
会议地点 Singapore(SG)
作者
Yang Qi; Tianbo Yang; Yi Tang; Krishna Raj Ramachandran Potti; Kaushik Rajashekara;
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作者单位

Nanyang Technological University Energy research institute;

Nanyang Technological University School of Electrical and Electronics Engineering;

University of Houston Department of ECE Texas;

Universit;

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Voltage control; Reactive power; Springs; Capacitors; Frequency control; Reactive power control; Energy storage;

机译：电压控制；无功功率；泉;电容器；频率控制；无功功率控制；储能;

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机译：单相电弹簧的近期分析解耦功率控制

A Transformless Electric Spring with Decoupled Real and Reactive Power Control

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