Critical Generation Evaluation Using Hybrid Energy Function Method |
| |
Authors: | KAZUYUKI TANAKA KENICHI KAWABE |
| |
Affiliation: | University of Toyama, Japan |
| |
Abstract: | It is well known that the transient energy function (TEF) method is useful for an efficient transient stability assessment as represented by the estimation of the critical clearing time (CCT). However, there still remains an issue for practical use: most of the TEF methods adopt the classical model of a synchronous machine in which the internally generated voltage is assumed to be constant. Moreover, critical generated output can be a more practical stability index instead of the CCT used in the conventional TEF methods. In this paper, a conventional hybrid TEF method is developed in order to estimate the transient stable critical generated power by using an improved hybrid simulation. The proposed method can handle the detailed model for a synchronous machine and can estimate the critical generated power with higher accuracy. Experimental results for a large network model are given in order to verify the practicability of the proposed method. |
| |
Keywords: | transient stability energy function method PEBS critical generation limit |
|