Impact on power system transient stability of AC-line-emulation controllers of VSC-HVDC links

TL;DR

This paper investigates how AC-line-emulation controllers in VSC-HVDC links affect power system transient stability, highlighting the importance of controller design to maintain system stability during disturbances.

Contribution

It provides the first detailed analysis of the impact of AC-line-emulation controllers on transient stability using nonlinear simulations and offers design recommendations.

Findings

AC-line-emulation controllers influence transient stability margins.

Proper controller design can prevent stability deterioration.

Simulation results guide stability-preserving controller configurations.

Abstract

High voltage direct current links based on voltage source converters (VSC-HVDC) embedded in alternating current (AC) systems are receiving a great deal of attention recently because they can contribute positively to the flexibilisation of modern power systems. Among several possibilities, AC-line-emulation control has been highlighted as an simple-but-useful alternative for these type of systems. With this strategy, the power flow through the link is controlled proportionally to the angle difference between its two AC terminals and this provides self-adaptation of the power flow in case of contingencies in the parallel AC lines, naturally. Although this controller is mainly concerned with steady state, it can also have an impact on the dynamic behaviour of the system, which has not been sufficiently analysed. Along this line, this paper analyses the impact of AC-line-emulation controllers of VSC-HVDC on power system transient stability. Nonlinear time-domain simulations were carried out by using PSS/E on a small test system with an embedded point-to-point VSC-HVDC link. The critical clearing time (CCT) of a test fault has been used to assess transient-stability margins of the whole system. The paper provides recommendations for the design of AC-line-emulation controllers in order to ensure that transient stability is not jeopardised.