A study on the extended horizon adaptive control algorithm of the magnetic support system for high-speed rotor machines

•Parametric predictive algorithms are suitable for adoption by the AMB control system.•Use of an extended horizon adaptive control algorithm reduces the amplitude of rotor vibration.•Careful analysis of the experimental results leads to a validation of motion equations of the theoretical model. The...

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Vydané v:Mechanical systems and signal processing Ročník 241; s. 113436
Hlavní autori: Kurnyta-Mazurek, P., Szolc, T., Henzel, M., Falkowski, K.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Ltd 01.12.2025
Predmet:
Active magnetic bearing
Extended horizon adaptive control algorithm
High-speed rotating machine
Magnetic support system
Parametric predictive control algorithm
Active magnetic bearing
Extended horizon adaptive control algorithm
High-speed rotating machine
Magnetic support system
Parametric predictive control algorithm
ISSN:0888-3270
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Popis
Shrnutí:•Parametric predictive algorithms are suitable for adoption by the AMB control system.•Use of an extended horizon adaptive control algorithm reduces the amplitude of rotor vibration.•Careful analysis of the experimental results leads to a validation of motion equations of the theoretical model. The paper focuses on research studies regarding the properties of active magnetic bearing supporting system when it is implemented in a high-speed rotating machine. The laboratory active magnetic suspension system under consideration consists of a massive, single-disk rotor-shaft supported by two radial and one axial (thrust) magnetic bearing. Here, the most important analysis concerns control issues in the active magnetic bearing when it uses the Extended Horizon Adaptive Control. This control method was chosen for deep analysis to reduce classical controllers’ weaknesses, such as the steady-state error of the proportional-derivative method and the saturation effect of integral operation in the proportional-integral-derivative approach. The control system’s detailed theoretical and experimental analyses are compared to the proportional-derivative algorithm, using time-histories of the vertical rotor-shaft displacement and the control current time-histories at zero, variable and constant rotational speeds. The obtained sufficiently good quantitative and qualitative agreement of the registered theoretical and experimental results confirmed the reliability of the analytical fundamentals of both methods used to control active magnetic bearings, as well as the significant advantages of the predictive Extended Horizon Adaptive Control method compared to the classic proportional-derivative approach.
ISSN:0888-3270
DOI:10.1016/j.ymssp.2025.113436