Progress and Application of Tie-line Power Control and Whole Process Simulation Technology of Interconnected Power Grid

被引：0

作者：

Tang Y. ^{[1
]}

机构：

[1] State Key Laboratory of Power Grid Safety and Energy Conservatoon, China Electrical Power Research Institute, Beijing

来源：

Zhendong Ceshi Yu Zhenduan/Journal of Vibration, Measurement and Diagnosis | 2019年 / 39卷 / 04期

关键词：

Ie iine; Interconnected power grid; Power fluctuaion; Power osciUaion; Whoe-process dy¬namic simulation;

D O I：

10.16450/j.cnki.issn.1004-6801.2019.04.001

中图分类号：

学科分类号：

摘要：

In order to solve the problems faced by the security of interconnected power grids in China, the principle and method of power fluctuation and the oscillation of tie line are put forward, and a multi-time- scale dynamic whole-process model and its simulation method of power system in China are developed. Base on them, the technical system of the dynamic process security defense of interconnected power grids is established, which can improve the effective defense against interruption of tie line chain and accurately simulate the dynamic process of tens of minutes or even hours. It provides a technical guarantee for the safe and stable operation of China power grid, which reaches the highest level in the world. © 2019, Editorial Department of JVMD. All right reserved.

引用

页码：681 / 690

页数：9

共 23 条

[1] Tang Y., Fundamental theory of forced power oscillation in power system, Power System Technology, 26, 10, pp. 29-33, (2006)
[2] Tang Y., Sun H., Yi J., Et al., AC tie-line power fluctuation mechanism and peak value calculation for two-area interconnected power systems, Proceedings of the CSEE, 30, 19, pp. 1-6, (2010)
[3] Tang Y., Gu Z., A study on effect of fault occurred in remote end of regional power grid on transient stability of interconnected power system, Power System Technology, 38, 1, pp. 154-159, (2014)
[4] Tang Y., He J., Sun H., Et al., AC tie-line stochastic power fluctuation mechanism and amplitude estimation for two-area interconnected power systems, Proceedings of the CSEE, 32, 19, pp. 30-35, (2012)
[5] Tang Y., Response-based wide area control for power system security and stability, Proceedings of the CSEE, 34, 29, pp. 5041-5050, (2014)
[6] Tang Y., Framework of comprehensive defense architecture for power system security and stability, Power System Technology, 36, 8, pp. 1-5, (2012)
[7] Tang Y., Wang Y., Tian F., Et al., Research and development of stability analysis, early-warning and control system for huge power grids, Power System Technology, 36, 7, pp. 1-11, (2012)
[8] Tang Y., Lin W., Sun H., Et al., Method identifying voltage instability and angle instability based on tracking thevenin equivalent parameters, Proceedings of the CSEE, 29, 25, pp. 1-6, (2009)
[9] Tang Y., Lin W., Sun H., Et al., Analysis of voltage stability criterion considering load characteristics, Proceedings of the CSEE, 30, 16, pp. 12-18, (2010)
[10] Tang Y., Yi J., Sun H., Et al., Voltage instability criterion based on variation relationship of power and current, Proceedings of the CSEE, 30, 28, pp. 7-11, (2010)

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