TCSC-STATCOM Controller for the Voltage Stability Improvement of the Wind Farm Connected to the Grid

The project is about the improvement of voltage stability of the system which has a wind farm connected to the Grid. A combination of TCSC and STATCOM is used in the controller. The controller ensures that the system receives enough reactive power to maintain stability. The simulation model is going to be inbuilt MATLAB/SIMULINK. output voltages of the system without the controller, with each component acting separately and the collaborative control effect of TCSC and STATCOM, will be compared and studied in the simulated model to prove the efficiency of the controller.

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Simulation Study on Dynamic Reactive Power Compensation of Grid-Connected Wind Farms

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.756-759.4171 ◽

2013 ◽

Vol 756-759 ◽

pp. 4171-4174 ◽

Cited By ~ 1

Author(s):

Xiao Ming Wang ◽

Xing Xing Mu

Keyword(s):

Voltage Stability ◽

Wind Farm ◽

Reactive Power ◽

Wind Farms ◽

Reactive Power Compensation ◽

Wind Speeds ◽

Wind Generators ◽

Reactive Compensation ◽

Farm Model ◽

Set Up

With the Asynchronous wind generators as research object, this paper analyzes the problems of the voltage stability and the generation mechanism of the reactive power compensation during the wind farms connected operation. For paralleling capacitor bank has shown obvious defects, therefore this paper employs dynamic reactive power compensation to improve reactive characteristics of grid-connected wind farms. With the influences of different wind disturbances and grid faults on wind farms, wind farm model is set up and dynamic reactive power compensation system and wind speeds are built in the Matlab/Simulink software, The simulation result shows that they can provide reactive power compensation to ensure the voltage stability of the wind farms. But STATCOM needs less reactive compensation capacity to make sure the voltage and active power approaching steady state before the faults more quickly, Therefore STATCOM is more suitable for wind farms connected dynamic reactive power compensation.

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Study of Influence on Power System Voltage Stability of Wind Farm Power Output Fluctuation

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.694-697.846 ◽

2013 ◽

Vol 694-697 ◽

pp. 846-849

Author(s):

Jian Yuan Xu ◽

Wei Fu Qi ◽

Yun Teng

Keyword(s):

Power System ◽

Wind Power ◽

Power Output ◽

Voltage Stability ◽

Wind Farm ◽

Reactive Power ◽

Simulation Analysis ◽

Power Grid ◽

Reactive Power Compensation ◽

Grid Integration

This paper mainly studies wind power fluctuations how to affect voltage stability after the wind power grid integration, and reactive power compensation equipment on improving effect. In certain parts of the wind farm, for example, firstly, analyzing the wind farm reactive power problems. Then introduce the reactive power compensation equipment that used in the wind farm. Finally, with PSCAD software, making a simulation analysis about the influence on the power grid voltage according to adopting the different reactive power compensation devices or not.

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Coordinated Reactive Power and Voltage Control Based on Doubly-Fed Wind Farm Cluster

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1070-1072.224 ◽

2014 ◽

Vol 1070-1072 ◽

pp. 224-227

Author(s):

Li Lin ◽

Kai Li

Keyword(s):

Control Strategy ◽

Voltage Stability ◽

Wind Farm ◽

Optimal Allocation ◽

Reactive Power ◽

Coordinated Control ◽

Current Control ◽

Separate Control ◽

Point Of Common Coupling ◽

Doubly Fed

Current control strategy of reactive power and voltage for wind power integration is separate control of single wind farm (WF), which cannot achieve the optimal allocation of reactive power and is not beneficial for the optimization of voltage stability and network loss. In this paper, a coordinated control strategy of reactive power and voltage for wind farm cluster is proposed, which takes the voltage stability at point of common coupling (PCC) and economic operation as the optimization goals. The coordinated control strategy is realized through the platform of Cybercontrol industrial configuration, and the application testing verifies the effectiveness of the proposed strategy.

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Hybrid PSO-Optimized ANFIS-Based Model to Improve Dynamic Voltage Stability

Engineering, Technology & Applied Science Research ◽

10.48084/etasr.2833 ◽

2019 ◽

Vol 9 (4) ◽

pp. 4384-4388 ◽

Cited By ~ 5

Author(s):

D. N. Truong ◽

V. T. Bui

Keyword(s):

Power System ◽

Wind Power ◽

Voltage Stability ◽

Wind Farm ◽

Reactive Power ◽

Voltage Response ◽

Inference System ◽

Dynamic Voltage ◽

Dynamic Voltage Stability ◽

Wind Power System

The objective of this paper is to perform a hybrid design for an Adaptive Neuro-Fuzzy Inference System (ANFIS) optimized by Particle Swarm Optimization (PSO) to improve the dynamic voltage stability of a grid-connected wind power system. An onshore 99.2MW wind farm using Doubly Fed Induction Generator (DFIG) is studied. To compensate the reactive power absorbed from the power grid of the wind farm, a Static VAR Compensator (SVC) is proposed. To demonstrate the performance of the proposed hybrid PSO–ANFIS controller, simulations of the voltage response in time-domain are performed in Matlab to evaluate the effectiveness of the designed controller. From the results, it can be concluded that the proposed hybrid PSO-optimized ANFIS-based model can be applied to enhance the dynamic voltage stability of the studied grid-connected wind power system.

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Wind Farm Voltage Control Scheme to Improve Dynamic Voltage Stability

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.732-733.745 ◽

2013 ◽

Vol 732-733 ◽

pp. 745-751 ◽

Cited By ~ 3

Author(s):

Peng Guo ◽

Wen Ying Liu ◽

Wei Wang ◽

Ning Bo Wang ◽

Huai Sen Jia

Keyword(s):

Voltage Stability ◽

Wind Farm ◽

Reactive Power ◽

Control Mode ◽

Synchronous Generators ◽

Control Logic ◽

Induction Generators ◽

Fast Development ◽

Dynamic Voltage ◽

Doubly Fed

Dynamic voltage instability is one of the new problems with the fast development of wind farm clusters. This text is about the improvement of voltage stability of weak grid connected with wind turbine generators (WTGs). It focuses on the control strategy and mode of WTGs and dynamic reactive compensators during disturbance. Firstly, in order to propel WTGs outputting reactive power, the active control mode regarding both doubly fed induction generators (DFIGs) and permanent magnetic synchronous generators (PMSGs) is given. Secondly, the method of installing SVC at the terminal of part of WTGs is proposed. The selection of WTGs to install SVC is based on the sensitivity analysis. Thirdly, a coordinating method of various reactive sources is discussed. Finally, the comprehensive control logic under time series is listed. The simulation validates the methods above.

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Chance-constrained reactive power planning of wind farm integrated distribution system considering voltage stability

2015 12th IEEE International Conference on Electronic Measurement & Instruments (ICEMI) ◽

10.1109/icemi.2015.7494181 ◽

2015 ◽

Author(s):

Wang Man ◽

Qiu Chendong

Keyword(s):

Distribution System ◽

Voltage Stability ◽

Wind Farm ◽

Reactive Power ◽

Reactive Power Planning

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Cooperative Control of SFCL and Reactive Power for Improving the Transient Voltage Stability of Grid-Connected Wind Farm With DFIGs

IEEE Transactions on Applied Superconductivity ◽

10.1109/tasc.2016.2574344 ◽

2016 ◽

Vol 26 (7) ◽

pp. 1-6 ◽

Cited By ~ 21

Author(s):

Ran Ou ◽

Xian-Yong Xiao ◽

Zhi-Ce Zou ◽

Yi Zhang ◽

Yu-Hong Wang

Keyword(s):

Cooperative Control ◽

Voltage Stability ◽

Wind Farm ◽

Reactive Power ◽

Transient Voltage Stability ◽

Transient Voltage

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Research on Voltage Stability in Grid-Connected Large Wind Farms

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.354-355.989 ◽

2011 ◽

Vol 354-355 ◽

pp. 989-992

Author(s):

An Lin

Keyword(s):

Power Systems ◽

Voltage Stability ◽

Wind Farm ◽

Reactive Power ◽

Low Voltage ◽

Wind Farms ◽

System Stability ◽

Induction Generator ◽

Induction Generators ◽

Large Wind

Squirrel-cage induction generator (SCIG) has been widely utilized in large wind farms in China. However, the large wind farm composed of induction generators will cause obvious power system stability problems due to the dependency on reactive power. Doubly-fed induction generator (DFIG) has excellent dynamic characteristics of wind farm operations. With the increasing of wind power penetration in power systems, more and more wind farms use both SCIG and DFIG. This paper firstly analyzes the the dynamic characteristic of wind farm on power systems, especially in terms of the voltage stability. Then the interaction between the SCIGs and DFIGs is also investigated. A detailed simulation model of wind farms is presented by means of MATLAB. The simulation results demonstrate that the DFIG applications will improve the voltage stability of the wind farm largely and the low voltage ride through characteristics of SCIG to some extend.

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Improve the LVRT Ability of Wind Farm with DFIG by Combination of SVC and DVR

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.380-384.3266 ◽

2013 ◽

Vol 380-384 ◽

pp. 3266-3270 ◽

Cited By ~ 2

Author(s):

Xiao Lan Wang ◽

Long Xian ◽

Cheng Xia Ma

Keyword(s):

Simulation Model ◽

Wind Farm ◽

Low Voltage ◽

Early Time ◽

Matlab Simulink ◽

Low Voltage Ride Through ◽

Voltage Recovery

According to the demand of low voltage ride through (LVRT) in China, the operation features of DFIG during grid fault are analyzed. A new topology combining SVC with a novel DVR is put forward in this paper. The problems such as slow voltage recovery in early time of the grid fault and over compensation of voltage in the later time of the fault are overcome. The over current in rotor side of DFIG during the grid fault is restricted at the same time. The simulation model for the new topology is built in MATLAB/Simulink. The effectiveness of the topology in improving the ability of LVRT is verified.

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Analysis of a wind farm with SCIG integrated into a high power system

COMPEL The International Journal for Computation and Mathematics in Electrical and Electronic Engineering ◽

10.1108/compel-10-2019-0383 ◽

2020 ◽

Vol 39 (3) ◽

pp. 637-645

Author(s):

Dian Malamov ◽

Ivan Hadzhiev ◽

Vasilina Zlatanova ◽

Snejana Terzieva ◽

Aleksandar Georgiev

Keyword(s):

Power System ◽

Computer Model ◽

Power Factor ◽

High Power ◽

Wind Farm ◽

Reactive Power ◽

Wind Farms ◽

Matlab Simulink ◽

Content Type ◽

Voltage Deviation

Purpose The aim of this paper is a steady-state analysis of the basic electrical characteristics of a wind farm with squirrel-cage induction generators (SCIG), integrated into a high power system. The SCIG are connected to the system by means of a step-up substation 21/115 kV, realized by cable lines. Design/methodology/approach The analyses have been done with the help of a computer model, developed in MATLAB/Simulink. Findings Results have been obtained, concerning the influence of the SCIG on the active and reactive power, on the power factor and the voltage deviation in the cases of only one generator operating, all generators operating and disabled generators. Practical implications The analysis has been carried out for an operating wind farm in the power system. The obtained results are applicable for optimizing and managing the modes of operation of the wind farm. Originality/value A mathematical model for studying the electrical parameters of an SCIG integrated into a high power system has been described. A computer model in MATLAB/Simulink has been synthesized. Numerical results have been obtained, concerning the dependence of the active power, the reactive power, the power factor and the voltage deviation on the shaft torque of the wind farms with SCIG.

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