Unbalance is one of essential problems for modern rotating machines. In this work, an improved time-varying observer is proposed to estimate the unbalance of rigid rotor during acceleration. In order to fitting different speed acceleration laws, the unbalance forces have been included in an new designed augmented states, meanwhile the state space model of rigid rotor has been also developed. The developed state space model is transformed to a canonical transformation and a new designed time-varying observer can be obtained. The estimated unbalances can be directly obtained by using this time-varying observer. This method would be very helpful for active balancing control strategy during acceleration
This paper discusses the use of acceleration measurements to improve the performance and robustness ...
Machines which are developed today are highly automated due to increased use of mechatronic systems....
Conventional rotor balancers are driven by electric motors that maintain the machine rotor/shaft ass...
Unbalance is one of essential problems for modern rotating machines. In this work, an improved time-...
Rotating machinery is widely used in industry. Vibration caused by mass imbalance is a common proble...
This paper investigates active real-time balancing of rigid rotors during the transient time of acce...
Mechanical unbalance is an important source of vibrations that can cause malfunctions in rotodynamic...
The harmful effects of imbalance-induced vibration cause significant productivity and precision redu...
International audienceIn this paper a method for unbalance identification in time-domain is presente...
The dynamics of rotating machinery are dominated by responses due to shaft and drive train character...
Funding Information: The research is funded by Business Finland project BRAIN (decision no. 1119/31/...
This paper presents an analytical study of single-plane automatic balancing of statically and dynami...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
Mass unbalance is one of the most prominent faults that occurs in rotating machines. The identificat...
A typical concern in rotating systems is related to rotor imbalances, which result typically from pi...
This paper discusses the use of acceleration measurements to improve the performance and robustness ...
Machines which are developed today are highly automated due to increased use of mechatronic systems....
Conventional rotor balancers are driven by electric motors that maintain the machine rotor/shaft ass...
Unbalance is one of essential problems for modern rotating machines. In this work, an improved time-...
Rotating machinery is widely used in industry. Vibration caused by mass imbalance is a common proble...
This paper investigates active real-time balancing of rigid rotors during the transient time of acce...
Mechanical unbalance is an important source of vibrations that can cause malfunctions in rotodynamic...
The harmful effects of imbalance-induced vibration cause significant productivity and precision redu...
International audienceIn this paper a method for unbalance identification in time-domain is presente...
The dynamics of rotating machinery are dominated by responses due to shaft and drive train character...
Funding Information: The research is funded by Business Finland project BRAIN (decision no. 1119/31/...
This paper presents an analytical study of single-plane automatic balancing of statically and dynami...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
Mass unbalance is one of the most prominent faults that occurs in rotating machines. The identificat...
A typical concern in rotating systems is related to rotor imbalances, which result typically from pi...
This paper discusses the use of acceleration measurements to improve the performance and robustness ...
Machines which are developed today are highly automated due to increased use of mechatronic systems....
Conventional rotor balancers are driven by electric motors that maintain the machine rotor/shaft ass...