The impact of wind farms on frequency stability of Syrian electrical power system

This study aims to analyze the effect of the wind farms on frequency stability of the electrical power network, and the description of the performance of Syrian Electrical Power System with integration of wind farms in several regions in Syria (Al-Quenetera – Al-Hejana - Ghabagheb) through the evaluation of frequency stability of the power system and the Critical Clearing Time (CCT). The effect of wind farms on the frequency behavior of Syrian network and factors related will be investigated such as generation technology by replacing the power-generated source by two main types of induction generators, changing the location of wind farms and increasing gradually the rate of wind power. The simulation analysis will be applied on Syrian Electrical Power System 230KV – 400KV, by using program NEPLAN, which gives access to an extensive library of grid components, and relevant wind turbine model.

The Impact of constant Speed Wind Turbines on the Transient Stability of Syrian Power System

Efforts are being made to connect many wind farms to Syrian electrical network As of Wind turbine the increases; their Cumulative impact on dynamic operational characteristics of power system will increase. In this paper, the impact of constant speed wind turbines utilizing squirrel cage induction generators, the most worldwide spread nowadays, on the transient stability of Syrian power system is analyzed. Various aspects have been considered like wind turbine penetration level, fault location on power system overhead lines and network topology transforming. Results of this study show that wind turbine farms planned to be connected to Syrian electrical network will have significant impact in improving transient stability parameters (CCT,d). As the wind turbine penetration level increases, their impact will increase, but still remain dependent on the fault location and network topology transforming caused by double circuits of overhead lines.

Performance of self – excited Induction Generators driven by wind Turbines

This paper deals with the performance study of the self-excited induction generator when driven by wind turbine for producing electrical energy. This was done by modeling both the induction generator and the wind turbine using the Matlab program, and depending on the general theory of electrical machines. method for this system by studying together the mechanical characteristics of the wind turbine and operating characteristics of the induction generator.

Enhancement of Critical Clearing Time to test system IEEE-9 by using combination or distribution Static Synchronous Compensators (STATCOMs)

This paper aims to use Static Synchronous Compensators (STATCOMs) in two cases combined or distributed, where it act in the first case as one compensator at one placement of electrical network, for the same required power of studied network, and distributed compensators as multi-STACOM with suitable powers in the second case where they are connected at the best placements of studied network, for improving critical clearing time of IEEE-9 nodes test system and its transient stability.