Optimization of the semi-active vibration absorbers
In this paper, an efficient numerical approach is proposed to maximize the minimal damping of modes in a prescribed frequency range for general viscous tuned-mass systems. Methods of decomposition and numerical synthesis are considered on the basis of the adaptive schemes. The influence of dynamic v...
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Warsaw University of Life Sciences
2021-07-01
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doaj-b8c5a94490ee4de0bd2586ad16f0dfd82021-06-28T19:00:06ZengWarsaw University of Life SciencesPrzegląd Naukowy Inżynieria i Kształtowanie Środowiska1732-93532543-74962021-07-0130232733610.22630/PNIKS.2021.30.2.28Optimization of the semi-active vibration absorbersVolodymyr Snitynskyy0Ivan Kernytskyy1Bohdan Diveyev2Orest Horbay3Yewhen Fornalchyk4Ruslan Humenuyk5Yaroslav Sholudko6 Lviv National Agrarian University – LNAU, Faculty of Mechanical and Power Engineering Warsaw University of Life Sciences, Faculty of Civil and Environmental Engineering Lviv Polytechnic National University – LPNU, Institute of Engineering Mechanics and Transport Lviv Polytechnic National University – LPNU, Institute of Engineering Mechanics and Transport Lviv Polytechnic National University – LPNU, Institute of Engineering Mechanics and Transport Lviv National Agrarian University – LNAU, Faculty of Mechanical and Power Engineering Lviv National Agrarian University – LNAU, Faculty of Mechanical and Power Engineering In this paper, an efficient numerical approach is proposed to maximize the minimal damping of modes in a prescribed frequency range for general viscous tuned-mass systems. Methods of decomposition and numerical synthesis are considered on the basis of the adaptive schemes. The influence of dynamic vibration absorbers and basic design elastic and damping properties is under discussion. A technique is developed to give the optimal DVA’s for the elimination of excessive vibration in sinusoidal and impact forced system. One task of this work is to analyze parameters identification of the dynamic vibration absorber and the basic structure. The questions of robustness at optimization of DVA are considered. Different types of control management for semi-active DVA’s are applied. Examples of DVA’s practical implementation are presented. http://iks.pn.sggw.pl/PN92/A10/art10.pdf dynamic vibration absorbersemi-activeadaptive schemesoptimizationrobustnessdesign |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Volodymyr Snitynskyy Ivan Kernytskyy Bohdan Diveyev Orest Horbay Yewhen Fornalchyk Ruslan Humenuyk Yaroslav Sholudko |
spellingShingle |
Volodymyr Snitynskyy Ivan Kernytskyy Bohdan Diveyev Orest Horbay Yewhen Fornalchyk Ruslan Humenuyk Yaroslav Sholudko Optimization of the semi-active vibration absorbers Przegląd Naukowy Inżynieria i Kształtowanie Środowiska dynamic vibration absorber semi-active adaptive schemes optimization robustness design |
author_facet |
Volodymyr Snitynskyy Ivan Kernytskyy Bohdan Diveyev Orest Horbay Yewhen Fornalchyk Ruslan Humenuyk Yaroslav Sholudko |
author_sort |
Volodymyr Snitynskyy |
title |
Optimization of the semi-active vibration absorbers |
title_short |
Optimization of the semi-active vibration absorbers |
title_full |
Optimization of the semi-active vibration absorbers |
title_fullStr |
Optimization of the semi-active vibration absorbers |
title_full_unstemmed |
Optimization of the semi-active vibration absorbers |
title_sort |
optimization of the semi-active vibration absorbers |
publisher |
Warsaw University of Life Sciences |
series |
Przegląd Naukowy Inżynieria i Kształtowanie Środowiska |
issn |
1732-9353 2543-7496 |
publishDate |
2021-07-01 |
description |
In this paper, an efficient numerical approach is proposed to maximize the minimal damping of modes in a prescribed frequency range for general viscous tuned-mass systems. Methods of decomposition and numerical synthesis are considered on the basis of the adaptive schemes. The influence of dynamic vibration absorbers and basic design elastic and damping properties is under discussion. A technique is developed to give the optimal DVA’s for the elimination of excessive vibration in sinusoidal and impact forced system. One task of this work is to analyze parameters identification of the dynamic vibration absorber and the basic structure. The questions of robustness at optimization of DVA are considered. Different types of control management for semi-active DVA’s are applied. Examples of DVA’s practical implementation are presented. |
topic |
dynamic vibration absorber semi-active adaptive schemes optimization robustness design |
url |
http://iks.pn.sggw.pl/PN92/A10/art10.pdf
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work_keys_str_mv |
AT volodymyrsnitynskyy optimizationofthesemiactivevibrationabsorbers AT ivankernytskyy optimizationofthesemiactivevibrationabsorbers AT bohdandiveyev optimizationofthesemiactivevibrationabsorbers AT oresthorbay optimizationofthesemiactivevibrationabsorbers AT yewhenfornalchyk optimizationofthesemiactivevibrationabsorbers AT ruslanhumenuyk optimizationofthesemiactivevibrationabsorbers AT yaroslavsholudko optimizationofthesemiactivevibrationabsorbers |
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1721356350777196544 |