Paper Info
Title
A numerical method to evaluate bifurcation aspects around generator stability limit
Abstract
In this paper, a numerical method to evaluate the stability and the orbit radius of limit cycles in a power system is proposed. The method can be a useful tool to estimate the available transmission capacity in a multi-machine power system since it tells us the global stability region around a critical operating point in the case that an unstable limit cycle exists. The effectiveness of the method is demonstrated by comparing the results from the proposed method with those from the software package AUTO applied to the detailed differential equations of a single machine infinite bus system. It has been also applied to the analysis of limit cycles in a longitudinally interconnected power system. As a result, a sustained power oscillation due to a stable limit cycle is evaluated
Year
DOI
Venue
2000
10.1109/ISCAS.2000.856391
ISCAS
Keywords
Field
DocType
bifurcation,limit cycles,power system interconnection,power system stability,auto software package,bifurcation aspects,critical operating point,differential equations,generator stability limit,global stability region,longitudinally interconnected power system,multi-machine power system,orbit radius,power system,single machine infinite bus system,sustained power oscillation,transmission capacity,unstable limit cycle,polynomials,limit cycle,numerical method,differential equation,power generation,oscillations
Power-flow study,Differential equation,Computer science,Operating point,Control theory,Electric power system,Limit cycle,Electronic engineering,Software,Numerical analysis,Bifurcation
Conference
Volume
ISBN
Citations 
2
0-7803-5482-6
0
PageRank 
References 
Authors
0.34
0
3
Name
Order
Citations
PageRank
Yasunori Mitani145.96
Miao, P.200.34
Tsuji, K.300.68