研究成果
期刊论文|Analytically Derived Fixed Termination Time for Stepwise Inertial Control of Wind Turbines—Part II: Application Strategy
发布时间:2022年05月03日 09:45    作者:    点击:[]

Analytically Derived Fixed Termination Time for Stepwise Inertial Control of Wind Turbines—Part II: Application Strategy


作者:Guo, Y., Bao, W., Ding, L., Liu Z., Kheshti M., Wu, Q., Terzija, V.

摘要:By applying stepwise inertial control (SIC) on wind turbines (WTs), a secure system frequency response after large active power imbalances in the system can be achieved. In Part I of this paper (Ding et al., submitted for publication), a novel approach for determining when to terminate the SIC is presented. In this context, a new analytical expression for a fixed termination time (FTT) is derived. In order to optimally implement the FTT concept, both the parameters of the system frequency response (SFR) model and the incremental power during the SIC process must be known. This paper is providing answers to these questions and furthermore proposes an advanced application strategy for the FTT concept. The new strategy improves the frequency nadirs and prevents the WTs’ rotor speed from violating the lower permissible limit during the SIC process. Using the least squares algorithm, the unknown SFR model parameters are estimated from the frequency measured at the point of common coupling (PCC) of the wind farm. The incremental active power is determined considering the effect of the incremental power on the frequency nadirs and the releasable kinetic energy of the WTs. The performance of the proposed new application strategy is verified using a modified IEEE 39-bus test system.

发表于:International Journal of Electrical Power and Energy Systems ( Volume: 121, Oct. 2020)


上一条:期刊论文|A hybrid robust forecasting-aided state estimator considering bimodal Gaussian mixture measurement errors 下一条:期刊论文|Analytically derived fixed termination time for stepwise inertial control of wind turbines—Part I: Analytical derivation

关闭

Copyright © 2021 All rights reserved. 版权所有:3308维多利亚优惠大厅 - 维多利亚老品牌优惠大厅科研团队 电话:0531-88392369 传真:0531-88392369 3308维多利亚优惠大厅千佛山校区 济南市经十路17923号 邮编 250061 3308维多利亚优惠大厅兴隆山校区 济南市二环东路12550号 邮编 250002