Paper Info
Title
Research on Turn Ratio of Magnetic Valve Type Controlled Reactor Based on Bifurcation Theory
Abstract
Magnetic valve type controlled reactor (MVCR) is the electrical equipment which shows some strongly nonlinear properties when working and its performance is influenced by its turn ratio. Some irregular phenomenon, for example, the mutation of ultimate dynamic state, the uncertain electromagnetic or mechanical noise, may occur under the condition of the improper value of turn ratio. In order to study the nonlinear behavior, by using the fixed period discrete mapping modeling method, the discrete mapping model of MVCR is established, the performance of the MVCR is analyzed based on the bifurcation theory for nonlinear dynamics and the reasonable value range of turn ratio is obtained. Simulation confirms that the result above is rational. The conclusion in the paper may provide a certain theoretical basis for the designing of controllable reactor in actual engineering.
Year
DOI
Venue
2009
10.1109/HIS.2009.143
HIS (2)
Keywords
Field
DocType
uncertain systems,bifurcation,nonlinear property,discrete mapping model,electrical equipment,ultimate dynamic state,uncertain mechanical noise,improper value,nonlinear dynamical systems,fixed period discrete mapping modeling,reasonable value range,strongly nonlinear properties,irregular phenomenon,discrete mapping modeling method,magnetic valve type,actual engineering,magnetic valve type controlled reactor,nonlinear behavior,nonlinear dynamics,controllable reactor,bifurcation theory,stability,nonlinear dynamic,valves,turn ratio,magnetic valve type controlled reactor (mvcr),uncertain electromagnetic noise
Nonlinear system,Control theory,Bifurcation theory,Nonlinear dynamical systems,Uncertain systems,Electrical equipment,Mathematics,Bifurcation
Conference
Volume
ISBN
Citations 
2
978-0-7695-3745-0
0
PageRank 
References 
Authors
0.34
0
3
Name
Order
Citations
PageRank
Yongfeng Zhang131.17
Xingong Cheng202.03
Xiju Zong302.37