Dynamic analysis of 1100 kV composite bushing considering oil and structure interaction effects Article Swipe

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YOU? · · 2019 · Open Access · · DOI: https://doi.org/10.1051/matecconf/201927201011

The 1100 kV composite bushing is one of the most important components in the ultra-high voltage electrical network. Therefore, the safety and integrity must be ensured during the operation under any conditions such as an earthquake. The primary object of this paper is to investigate the effects of oil in the dome on the dynamic responses of the 1100 kV composite bushing when subjected to horizontal seismic ground motion. The coupled finite element method (FEM) and smoothed particle hydrodynamics (SPH) method is adopted to simulate the fluid structure interaction (FSI) between the oil and the dome. The influences of particle’s distributions on the numerical results and computational efficiencies are discussed. For comparison with the coupled FEM/SPH method, the additional mass model is also performed. The influences of oil oscillation on the time history of absolute acceleration of 1100 kV composite bushing are discussed, as well as the relative displacement and the bending moment at the base of the structure. The results show that the motion of oil in the dome with free surface can limit the vibration of the 1100 kV composite bushing and can efficiently dissipate the kinetic energy of the 1100 kV composite bushing by fluid-structure interaction.

Related Topics

Finite Element Method

Vibration

Structural Engineering

Concepts

Bushing Finite element method Vibration Structural engineering Composite number Mechanics Displacement (psychology) Materials science Fluid–structure interaction Engineering Composite material Physics Acoustics Psychology Psychotherapist

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Type: article
Language: en
Landing Page: https://doi.org/10.1051/matecconf/201927201011
PDF: https://www.matec-conferences.org/articles/matecconf/pdf/2019/21/matecconf_icfmce2019_01011.pdf
OA Status: diamond
References: 14
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DOI: https://doi.org/10.1051/matecconf/201927201011

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Title: Dynamic analysis of 1100 kV composite bushing considering oil and structure interaction effects

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Type: article

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Language: en

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Publication year: 2019

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Publication date: 2019-01-01

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Authors: Hong Yue, Jian Yun Chen, Qiang Xu

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Landing page: https://doi.org/10.1051/matecconf/201927201011

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Concepts: Bushing, Finite element method, Vibration, Structural engineering, Composite number, Mechanics, Displacement (psychology), Materials science, Fluid–structure interaction, Engineering, Composite material, Physics, Acoustics, Psychology, Psychotherapist

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abstract_inverted_index.the	8, 13, 19, 27, 45, 50, 53, 57, 85, 91, 94, 102, 113, 117, 130, 146, 150, 154, 157, 163, 168, 175, 178, 187, 191
abstract_inverted_index.1100	1, 58, 137, 179, 192
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abstract_inverted_index.base	155
abstract_inverted_index.dome	51, 169
abstract_inverted_index.free	171
abstract_inverted_index.mass	119
abstract_inverted_index.most	9
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abstract_inverted_index.that	162
abstract_inverted_index.this	40
abstract_inverted_index.time	131
abstract_inverted_index.well	144
abstract_inverted_index.when	62
abstract_inverted_index.with	112, 170
abstract_inverted_index.(FEM)	74
abstract_inverted_index.(FSI)	89
abstract_inverted_index.(SPH)	79
abstract_inverted_index.dome.	95
abstract_inverted_index.fluid	86
abstract_inverted_index.limit	174
abstract_inverted_index.model	120
abstract_inverted_index.paper	41
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abstract_inverted_index.during	26
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abstract_inverted_index.finite	71
abstract_inverted_index.ground	67
abstract_inverted_index.method	73, 80
abstract_inverted_index.moment	152
abstract_inverted_index.motion	164
abstract_inverted_index.object	38
abstract_inverted_index.safety	20
abstract_inverted_index.FEM/SPH	115
abstract_inverted_index.adopted	82
abstract_inverted_index.bending	151
abstract_inverted_index.between	90
abstract_inverted_index.bushing	4, 61, 140, 182, 195
abstract_inverted_index.coupled	70, 114
abstract_inverted_index.dynamic	54
abstract_inverted_index.effects	46
abstract_inverted_index.element	72
abstract_inverted_index.ensured	25
abstract_inverted_index.history	132
abstract_inverted_index.kinetic	188
abstract_inverted_index.method,	116
abstract_inverted_index.motion.	68
abstract_inverted_index.primary	37
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abstract_inverted_index.seismic	66
abstract_inverted_index.surface	172
abstract_inverted_index.voltage	15
abstract_inverted_index.absolute	134
abstract_inverted_index.network.	17
abstract_inverted_index.particle	77
abstract_inverted_index.relative	147
abstract_inverted_index.simulate	84
abstract_inverted_index.smoothed	76
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abstract_inverted_index.dissipate	186
abstract_inverted_index.important	10
abstract_inverted_index.integrity	22
abstract_inverted_index.numerical	103
abstract_inverted_index.operation	28
abstract_inverted_index.responses	55
abstract_inverted_index.structure	87
abstract_inverted_index.subjected	63
abstract_inverted_index.vibration	176
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abstract_inverted_index.additional	118
abstract_inverted_index.comparison	111
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abstract_inverted_index.conditions	31
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abstract_inverted_index.discussed.	109
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abstract_inverted_index.horizontal	65
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abstract_inverted_index.structure.	158
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abstract_inverted_index.earthquake.	35
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abstract_inverted_index.acceleration	135
abstract_inverted_index.displacement	148
abstract_inverted_index.efficiencies	107
abstract_inverted_index.interaction.	198
abstract_inverted_index.particle’s	99
abstract_inverted_index.computational	106
abstract_inverted_index.distributions	100
abstract_inverted_index.hydrodynamics	78
abstract_inverted_index.fluid-structure	197
cited_by_percentile_year
countries_distinct_count	1
institutions_distinct_count	3
citation_normalized_percentile.value	0.02591035
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	False