Title :
Wind turbine´s tower-nacelle model with magnetorheological tuned vibration absorber
Author :
Martynowicz, Pawea ; Szydao, Zbigniew
Author_Institution :
AGH Univ. of Sci. & Technol., Cracow, Poland
Abstract :
The paper addresses the design of laboratory test rig of wind turbine´s tower-nacelle model with horizontally aligned magnetorheological tuned vibration absorber. Several model constraints are fulfilled. Test rig design is featured and described. Its main elements are: vertical stiff rod (a tower) and a system of steel plates and blocks that is fitted rigidly at rod´s top (a nacelle), connected horizontally via a spring and MR damper with an additional mass of vibration absorber. The nacelle is excited horizontally, forcing tower bending modes of vibration. The rod itself may be either fitted rigidly at its bottom to the ground and excited horizontally at an arbitrary height by the second shaker, or laid on the steel plate being excited horizontally.
Keywords :
bending; design for testability; elasticity; magnetorheology; plates (structures); poles and towers; rods (structures); shear modulus; shock absorbers; springs (mechanical); steel; vibration control; vibrations; wind turbines; MR damper; horizontally aligned magnetorheological tuned vibration absorber; laboratory test rig design; rigidity; second shaker; spring; steel plate; tower bending mode; vertical stiff rod; wind turbine tower-nacelle model; Hafnium; Radio frequency; laboratory test rig; magnetorheological damper; tuned vibration absorber; wind turbine vibration;
Conference_Titel :
Carpathian Control Conference (ICCC), 2013 14th International
Conference_Location :
Rytro
Print_ISBN :
978-1-4673-4488-3
DOI :
10.1109/CarpathianCC.2013.6560545
