Equilibrium-Independent Passivity of Power Systems: A Link Between Classical and Two-Axis Synchronous Generator Models

TL;DR

This paper investigates the conditions under which two-axis generator models in power systems exhibit equilibrium-independent passivity, linking mathematical properties of energy functions to system stability and practical power network analysis.

Contribution

It provides a mathematical characterization of EI passivity in two-axis generator models, linking convexity of energy functions to stability and passivity conditions, with validation through simulations.

Findings

Lossless transmission networks are necessary for EI passivity.

Convexity of the strain energy function characterizes stable equilibria.

Convexity of the energy function is linked to flux linkage dynamics stability.

Abstract

We study the equilibrium-independent (EI) passivity of a nonlinear power system composed of two-axis generator models. The model of our interest consists of a feedback inter-connection of linear and nonlinear subsystems, called mechanical and electromagnetic subsystems. We mathematically prove the following three facts by analyzing the nonlinear electromagnetic subsystem. First, a lossless transmission network is necessary for the EI passivity of the electromagnetic subsystem. Second, the convexity of a strain energy function characterizes the largest set of equilibria over which the electromagnetic subsystem is EI passive. Finally, we prove that the strain energy function for the network of the two-axis generator models is convex if and only if its flux linkage dynamics is stable, and the strain energy function for the network of the classical generator models derived by singular perturbation approximation of the flux linkage dynamics is convex. Numerical simulation of the IEEE 9-bus power system model demonstrates the practical implications of the various mathematical results. In particular, we validate that the convex domain of the strain energy function over which the electromagnetic subsystem is EI passive is almost identical to the set of all stable equilibria. This result is also generalized to lossy power systems based on our finding that the convexity of the strain energy function is equivalent to the positive semidefiniteness of a synchronizing torque coefficient matrix.