Power System Nonlinear Modal Analysis Using Computationally Reduced Normal Form Method
Article dans une revue avec comité de lecture
Auteur
UGWUANYI, Nnaemeka SundayMARINESCU, Bogdan 
THOMAS, Olivier KESTELYN, XavierRésumé
Increasing nonlinearity in today’s grid challenges the conventional small-signal (modal) analysis (SSA) tools. For instance, the interactions among modes, which are not captured by SSA, may play significant roles in a stressed power system. Consequently, alternative nonlinear modal analysis tools, notably Normal Form (NF) and Modal Series (MS) methods are being explored. However, they are computation-intensive due to numerous polynomial coefficients required. This paper proposes a fast NF technique for power system modal interaction investigation, which uses characteristics of system modes to carefully select relevant terms to be considered in the analysis. The Coefficients related to these terms are selectively computed and the resulting approximate model is computationally reduced compared to the one in which all the coefficients are computed. This leads to a very rapid nonlinear modal analysis of the power systems. The reduced model is used to study interactions of modes in a two-area power system where the tested scenarios give same results as the full model, with about 70% reduction in computation time.
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Communication avec acte;THOMAS, Olivier; ; KESTELYN, Xavier (IEEE, 2019)
Today's power systems are strongly nonlinear and are becoming more complex with the large penetration of power-electronics interfaced generators. Conventional Linear Modal Analysis does not adequately study such a system ...
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Article dans une revue avec comité de lecture;THOMAS, Olivier; ; ; KESTELYN, Xavier (Institute of Electrical and Electronics Engineers, 2020)
The inclusion of higher-order terms in small-signal (modal) analysis augments the information provided by linear analysis and enables better dynamic characteristic studies on the power system. This can be done by applying ...
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Article dans une revue avec comité de lecture;KESTELYN, Xavier; THOMAS, Olivier; MARINESCU, Bogdan; (Elsevier BV, 2022-07)
This paper proposes a new system-level application for monitoring out-of-step (OOS) events in power systems. As already known, amplitude-dependent frequency shift is a nonlinear phenomenon of electromechanical oscillations ...
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Article dans une revue avec comité de lecture;CLENET, Stephane; KESTELYN, Xavier; THOMAS, Olivier (Institute of Electrical and Electronics Engineers (IEEE), 2022-03)
Closed-form formulations are difficult to find when the material behavior law is nonlinear. A linear approximation, on the other hand, has a very narrow range of validity. In this communication, the Normal Form (NF) method ...
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Article dans une revue avec comité de lecture;THOMAS, Olivier; ; ; KESTELYN, Xavier (Institute of Electrical and Electronics Engineers, 2018)
The inclusion of higher-order terms in small-signal (modal) analysis has been an intensive research topic in nonlinear power system analysis. Inclusion of second-order terms with the method of normal forms (MNF) has been ...