Impact of Frequency Support by Wind Turbines on Small-Signal Stability of Power Systems

TL;DR

This paper examines how wind turbines with DFIGs providing frequency support influence small-signal stability in power systems, revealing that effects vary based on control strategies and tuning.

Contribution

It introduces a detailed analysis of the impact of DFIG-based frequency support on power system stability using a modified test system.

Findings

Primary frequency support improves electromechanical oscillation damping.

Inertial response effects depend on control parameter tuning.

Damping effects vary for different types of oscillations.

Abstract

Rising wind energy integration, accompanied by a decreasing level of system inertia, requires additional sources of ancillary services. Wind turbines based on doubly fed induction generators (DFIG) can provide inertial and primary frequency support, when equipped with specific controls. This paper investigates the effect of frequency support provision by DFIGs on the small-signal stability of power systems. To this end, a modified version of the Kundur two-area test system is employed to analyze different scenarios. Wind energy generation is either added to the existing system or displaces part of the synchronous generation. Simulations show that primary frequency support tends to improve the damping of electromechanical oscillations and deteriorate it for converter control-based ones. On the other hand, inertial response may be either beneficial, detrimental or negligible to damping, depending on the tuning of control parameters.