The vibration control of rotors is often performed using elastomeric or fluid dampers together with rolling element or hydrodynamic type bearings. Electromagnetic dampers seem a valid alternative to conventional solutions and also to active magnetic bearings (AMBs) because their simpler architecture, size and, if of transformer type, also for the absence of power electronics, position sensors, and any fast feedback loop. However, transformer eddy current dampers require a constant voltage power supply than can be provided by an embedded generator to reduce cost and improve the reliability. The present paper proposes a self-powered damper to fulfill these requirements. A three-phase permanent magnet electric generator (connected to the rotating shaft) generates the required power for the damping device. The generator is connected to the damping circuit by means of tuned impedance and a three-phase rectifier.

References

1.
Ahn
,
Y. K.
,
Yang
,
B.-S.
, and
Morishita
,
S.
,
2002
, “
Directional Controllable Squeeze Film Damper Using Electro-Rheological Fluid
,”
ASME J. Vib. Acoust.
,
124
(1), pp.
105
109
.10.1115/1.1420702
2.
Vance
,
J. M.
, and
Ying
,
D.
,
2000
, “
Experimental Measurements of Actively Controlled Bearing Damping With an Electrorheological Fluid
,”
ASME J. Eng. Gas Turbines Power
,
122
(2), pp.
337
344
.10.1115/1.483212
3.
Tonoli
,
A.
,
Amati
,
N.
, and
Padovani
,
M.
,
2003
, “
Progetto di Smorzatori e Giunti Elettromagnetici per Alberi a Gomiti
,”
XXIII AIAS Conference
, Salerno, Italy, Sept. 3–6, pp.
3
6
.
4.
Nagaya
,
K.
,
1984
, “
On a Magnetic Damper Consisting of a Circular Magnetic Flux and a Conductor of Arbitrary Shape. Part I: Derivation of the Damping Coefficients
,”
ASME J. Dyn. Syst. Meas. Control
,
106
(1), pp.
46
51
.10.1115/1.3149662
5.
Nagaya
,
K.
, and
Karube
,
Y.
,
1989
, “
A Rotary Magnetic Damper or Brake Consisting of a Number of Sector Magnets and a Circular Conductor
,”
ASME J. Dyn. Syst. Meas. Control
,
111
(1), pp.
97
104
.10.1115/1.3153024
6.
Karnopp
,
D.
,
1989
, “
Permanent Magnets Linear Motors Used as Variable Mechanical Damper for Vehicle Suspension
,”
Veh. Syst. Dyn.
,
18
(4), pp.
187
200
.10.1080/00423118908968918
7.
Graves
,
K. E.
,
Toncich
,
D.
, and
Iovenitti
,
P. G.
,
2000
, “
Theoretical Comparison of the Motional and Transformer EMF Device Damping Efficiency
,”
J. Sound Vib.
,
233
(
3
), pp.
441
453
.10.1006/jsvi.1999.2820
8.
Meisel
,
J.
,
1984
,
Principles of Electromechanical Energy Conversion
,
Robert Krieger
,
Malabar, FL
.
9.
Crandall
,
S. H.
,
Karnopp
,
D.
,
Kurtz
,
E. F.
, and
Pridmore-Brown
,
E. C.
,
1968
,
Dynamics of Mechanical and Electromechanical Systems
,
McGraw-Hill
,
New York
.
10.
Karnopp
,
D.
,
Margolis
,
D. L.
, and
Rosenberg
,
R. C.
,
1990
,
System Dynamics: A Unified Approach
,
Wiley & Sons, New York
.
11.
Kligerman
,
Y.
, and
Gottlieb
,
O.
,
1998
, “
Dynamics of a Rotating System With a Nonlinear Eddy-Current Damper
,”
ASME J. Vib. Acoust.
,
120
(4), pp.
848
853
.10.1115/1.2893910
12.
Kligerman
,
Y.
,
Grushkevich
,
A.
, and
Darlow
,
M. S.
,
1998
, “
Analytical and Experimental Evaluation of Instability in Rotordynamics System With Electromagnetic Eddy-Current Damper
,”
ASME J. Vib. Acoust.
,
120
(1), pp.
272
278
.10.1115/1.2893817
13.
Tonoli
,
A.
,
2007
, “
Dynamic Characteristics of Eddy Current Dampers and Couplers
,”
J. Sound Vib.
,
301
(3–5), pp.
576
591
.10.1016/j.jsv.2006.10.015
14.
Amati
,
N.
,
Festini
,
A.
, and
Tonoli
,
A.
,
2011
, “
Design of Electromagnetic Shock Absorbers for Automotive Suspensions
,”
Veh. Syst. Dyn.
,
49
(
12
), pp.
1913
1928
.10.1080/00423114.2011.554560
15.
Takayama
,
Y.
, and
Kondou
,
T.
,
2013
, “
Magnetic Damper Consisting of a Combined Hollow Cylinder Magnet and Conducting Disks
,”
ASME J. Vib. Acoust.
,
135
(
5
), p.
051007
.10.1115/1.4024094
16.
Amati
,
N.
,
Silvagni
,
M.
, and
Tonoli
,
A.
,
2008
, “
Transformer Eddy Current Dampers in Rotating Machines Vibration Control
,”
ASME J. Dyn. Syst. Meas. Control
,
130
(3), p.
031010
.10.1115/1.2907358
17.
Tonoli
,
A.
,
Amati
,
N.
,
Bonfitto
,
A.
,
Silvagni
,
M.
,
Staples
,
B.
, and
Karpenko
,
E.
,
2010
, “
Design of Electromagnetic Dampers for Aero-Engine Applications
,”
ASME J. Eng. Gas Turbines Power
,
132
(
11
), p.
112501
.10.1115/1.4000801
18.
Tonoli
,
A.
, and
Silvagni
,
M.
, “
Electromagnetic Damper for Rotating Machines
,” World Patent WO2010133333.
19.
Genta
,
G.
,
Delprete
,
C.
, and
Bassani
,
D.
,
1996
, “
DYNROT: A Finite Element Code For Rotordynamic Analysis
,”
Eng. Comput.
,
13
(
6
), pp.
86
109
.10.1108/02644409610128427
20.
Golla
,
D. F.
, and
Hughes
,
P. C.
,
1985
, “
Dynamics of Viscoelastic Structures—A Time Domain, Finite Element Formulation
,”
ASME J. Appl. Mech.
,
52
(4), pp.
897
906
.10.1115/1.3169166
21.
Genta
,
G.
,
2004
,
Dynamics of Rotating Systems
,
Springer-Verlag
, New York.
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