Add to ORKGThis paper provides the spring-mass-damper (SMD) model analysis of a radial active magnetic bearing (AMB) system that displays eccentricity. Energy management of AMB systems can be done by means of a detailed SMD model analysis. It is specifically important to use SMD model analysis when the AMB system displays eccentricity. A SMD model analysis as well as the free-body diagram analysis is presented for the following scenarios: 1) rotational load unbalance, 2) foundation looseness, 3) rotating overhung rotor, 4) static eccentricity and 5) dynamic eccentricit
The development and the design of a radial active magnetic bearing (AMB) reflects a complex process ...
In the paper the modeling of synchronous machines with permanent magnets (PM) located on the surface...
Active magnetic bearings used in rotating machinery should be designed as locally controlled, indepe...
This paper presents the use of fault conditions on active magnetic bearing (AMB) systems as an ener...
In case of active magnetic bearing power failures or high transient overloads, the fast spinning rot...
Radial Active Magnetic Bearings (R-AMBs) have become an attractive alternative to other type of bear...
This paper compaerethe analytical mathematical model of active magnetic bearings (AMBs) with a FEM b...
Active Magnetic Bearings (AMB) support a body by magnetic pulling forces, without any mechanical con...
For active magnetic bearings (AMBs) to be used with confidence in industrial applications, the safe ...
In order to get a better understanding of the dynamics of active magnetic bearing (AMB) systems, [1]...
ii This thesis presents investigations aimed at obtaining a system model for the stabilisation of an...
Traditionally, active magnetic bearing (AMB) systems are designed as an integral component of machin...
In order to get a better understanding of the dynamics of active magnetic bearing (AMB) systems unde...
Passively magnetically stabilized degrees of freedom yield the benefit of reduced complexity and the...
6176-09, Session 2 This paper conducts an analytical modeling effort and an experimental system desi...
The development and the design of a radial active magnetic bearing (AMB) reflects a complex process ...
In the paper the modeling of synchronous machines with permanent magnets (PM) located on the surface...
Active magnetic bearings used in rotating machinery should be designed as locally controlled, indepe...
This paper presents the use of fault conditions on active magnetic bearing (AMB) systems as an ener...
In case of active magnetic bearing power failures or high transient overloads, the fast spinning rot...
Radial Active Magnetic Bearings (R-AMBs) have become an attractive alternative to other type of bear...
This paper compaerethe analytical mathematical model of active magnetic bearings (AMBs) with a FEM b...
Active Magnetic Bearings (AMB) support a body by magnetic pulling forces, without any mechanical con...
For active magnetic bearings (AMBs) to be used with confidence in industrial applications, the safe ...
In order to get a better understanding of the dynamics of active magnetic bearing (AMB) systems, [1]...
ii This thesis presents investigations aimed at obtaining a system model for the stabilisation of an...
Traditionally, active magnetic bearing (AMB) systems are designed as an integral component of machin...
In order to get a better understanding of the dynamics of active magnetic bearing (AMB) systems unde...
Passively magnetically stabilized degrees of freedom yield the benefit of reduced complexity and the...
6176-09, Session 2 This paper conducts an analytical modeling effort and an experimental system desi...
The development and the design of a radial active magnetic bearing (AMB) reflects a complex process ...
In the paper the modeling of synchronous machines with permanent magnets (PM) located on the surface...
Active magnetic bearings used in rotating machinery should be designed as locally controlled, indepe...