Transient stabilization of multimachine power systems with nontrivial transfer conductances

Abstract: Abstract-In this paper, we provide a solution to the long-standing problem of transient stabilization of multimachine power systems with nonnegligible transfer conductances.More specifically, we consider the full 3 -dimensional model of the -generator system with lossy transmission lines and loads and prove the existence of a nonlinear static state feedback law for the generator excitation field that ensures asymptotic stability of the operating point with a well-defined estimate of the domain of attraction pr… Show more

“…By applying the Implicit Function Theorem, [5] has proved the existence of a cross-term λ such that any C 1 function is assignable for ψ. Moreover, the CLF in (4) guarantees asymptotic stability of the desired operating equilibrium x * .…”

“…Moreover, the CLF in (4) guarantees asymptotic stability of the desired operating equilibrium x * . However, neither an explicit form of ψ nor an explicit control law has been suggested for n-machine models in [5], which is mainly due to the difficulty in the explicit computation of the cross-term.…”

“…Transient stability is mainly concerned with the ability of the power system to maintain synchronism when subject to large disturbances such as a fault on the transmission facilities [1]. The fault modifies the network topology, therefore driving the state away from the pre-fault operating equilibrium; after the fault is cleared, the question becomes whether the state trajectory converges back to a desired post-fault operating equilibrium [1], [5]. Typically, if the post-fault rotor angular separations between all SGs remain within certain bounds, the system maintains synchronism; otherwise, the system is deemed to be transient unstable and corrective actions have to be undertaken [1], [3], [4].…”

“…The main obstacle to the task of constructing an explicit control Lyapunov function (CLF) stems from the deleterious effects of resistive elements that hamper the assignment of the potential-energy-like term [5]. To address this problem, [5] has proposed a nonstandard cross-term that modifies the energy transfer and therefore improves the general form of traditional CLFs. By applying the Implicit Function Theorem, [5] has proved the existence of a CLF for the transient stability analysis of lossy multi-machine models.…”

“…To address this problem, [5] has proposed a nonstandard cross-term that modifies the energy transfer and therefore improves the general form of traditional CLFs. By applying the Implicit Function Theorem, [5] has proved the existence of a CLF for the transient stability analysis of lossy multi-machine models. However, neither an explicit form of CLFs nor a feasible control law has been suggested.…”

Lyapunov-based Transient Stability Analysis

“…By applying the Implicit Function Theorem, [5] has proved the existence of a cross-term λ such that any C 1 function is assignable for ψ. Moreover, the CLF in (4) guarantees asymptotic stability of the desired operating equilibrium x * .…”

“…Moreover, the CLF in (4) guarantees asymptotic stability of the desired operating equilibrium x * . However, neither an explicit form of ψ nor an explicit control law has been suggested for n-machine models in [5], which is mainly due to the difficulty in the explicit computation of the cross-term.…”

“…Transient stability is mainly concerned with the ability of the power system to maintain synchronism when subject to large disturbances such as a fault on the transmission facilities [1]. The fault modifies the network topology, therefore driving the state away from the pre-fault operating equilibrium; after the fault is cleared, the question becomes whether the state trajectory converges back to a desired post-fault operating equilibrium [1], [5]. Typically, if the post-fault rotor angular separations between all SGs remain within certain bounds, the system maintains synchronism; otherwise, the system is deemed to be transient unstable and corrective actions have to be undertaken [1], [3], [4].…”

“…The main obstacle to the task of constructing an explicit control Lyapunov function (CLF) stems from the deleterious effects of resistive elements that hamper the assignment of the potential-energy-like term [5]. To address this problem, [5] has proposed a nonstandard cross-term that modifies the energy transfer and therefore improves the general form of traditional CLFs. By applying the Implicit Function Theorem, [5] has proved the existence of a CLF for the transient stability analysis of lossy multi-machine models.…”

“…To address this problem, [5] has proposed a nonstandard cross-term that modifies the energy transfer and therefore improves the general form of traditional CLFs. By applying the Implicit Function Theorem, [5] has proved the existence of a CLF for the transient stability analysis of lossy multi-machine models. However, neither an explicit form of CLFs nor a feasible control law has been suggested.…”

Lyapunov-based Transient Stability Analysis

Adaptive parallel simultaneous stabilization of a set of uncertain port‐controlled hamiltonian systems subject to actuator saturation

Adaptive interconnection and damping assignment passivity‐based control for linearly parameterized discrete‐time port controlled Hamiltonian systems via I&I approach