Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building

碩士 === 國立交通大學 === 土木工程學系 === 101 === Environment induced vibrations should be controlled under very small level to precisely operate a synchrotron Χ light source. This work measures the ambient vibrations of the storage ring building in its various construction stages in National Synchrotron Radiati...

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Main Authors: Wang, Yu-Jun, 王裕鈞
Other Authors: Huang, Chiung-Shiann
Format: Others
Language:zh-TW
Published: 2012
Online Access:http://ndltd.ncl.edu.tw/handle/13365313645997560517
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spelling ndltd-TW-101NCTU50150462016-07-02T04:20:16Z http://ndltd.ncl.edu.tw/handle/13365313645997560517 Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building 台灣光子源儲存環館之微動量測與模態識別 Wang, Yu-Jun 王裕鈞 碩士 國立交通大學 土木工程學系 101 Environment induced vibrations should be controlled under very small level to precisely operate a synchrotron Χ light source. This work measures the ambient vibrations of the storage ring building in its various construction stages in National Synchrotron Radiation Research Center. The measurement shows a couple of important facts. The predominant frequency of the site is around 3 Hz, and there are external stable vibration sources with frequencies of 28~32 Hz and 57~60 Hz. The mat foundation of the building considerably reduces the vibrations with frequencies larger than 5 Hz. The root mean square values of displacement in the range of 4 to 100 Hz decrease from 80 nm to 30 nm in horizontal directions and from 85 nm to 40 nm in vertical direction. The auto-regressive vector time series model is applied to identify the modal parameters of the building from the measured ambient vibration responses. The building is divided into two parts by expansion joints, namely internal ring building and external ring building. Seven and nine modes are identified for the internal and external buildings, respectively. These identified natural frequencies are significantly larger than those obtained from the finite element model for design. The identified first fundamental frequencies of the internal ring and external ring buildings are larger than the designed ones by 45% and 70%, respectively. The identified 1st and 4th mode shapes of the external ring building and the 1st and 3rd mode shapes of the internal ring building show reasonable agreement with those obtained from the finite element model with MAC larger than 0.6. The inconsistency between the identified results and the analytical results of finite element model indicates the significant differences between the constructed building and the design one. The real stiffness of the building is larger than the designed. Huang, Chiung-Shiann 黃炯憲 2012 學位論文 ; thesis 142 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立交通大學 === 土木工程學系 === 101 === Environment induced vibrations should be controlled under very small level to precisely operate a synchrotron Χ light source. This work measures the ambient vibrations of the storage ring building in its various construction stages in National Synchrotron Radiation Research Center. The measurement shows a couple of important facts. The predominant frequency of the site is around 3 Hz, and there are external stable vibration sources with frequencies of 28~32 Hz and 57~60 Hz. The mat foundation of the building considerably reduces the vibrations with frequencies larger than 5 Hz. The root mean square values of displacement in the range of 4 to 100 Hz decrease from 80 nm to 30 nm in horizontal directions and from 85 nm to 40 nm in vertical direction. The auto-regressive vector time series model is applied to identify the modal parameters of the building from the measured ambient vibration responses. The building is divided into two parts by expansion joints, namely internal ring building and external ring building. Seven and nine modes are identified for the internal and external buildings, respectively. These identified natural frequencies are significantly larger than those obtained from the finite element model for design. The identified first fundamental frequencies of the internal ring and external ring buildings are larger than the designed ones by 45% and 70%, respectively. The identified 1st and 4th mode shapes of the external ring building and the 1st and 3rd mode shapes of the internal ring building show reasonable agreement with those obtained from the finite element model with MAC larger than 0.6. The inconsistency between the identified results and the analytical results of finite element model indicates the significant differences between the constructed building and the design one. The real stiffness of the building is larger than the designed.
author2 Huang, Chiung-Shiann
author_facet Huang, Chiung-Shiann
Wang, Yu-Jun
王裕鈞
author Wang, Yu-Jun
王裕鈞
spellingShingle Wang, Yu-Jun
王裕鈞
Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building
author_sort Wang, Yu-Jun
title Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building
title_short Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building
title_full Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building
title_fullStr Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building
title_full_unstemmed Ambient Measurement and Modal Identification of Taiwan Photon Source Storage Ring Building
title_sort ambient measurement and modal identification of taiwan photon source storage ring building
publishDate 2012
url http://ndltd.ncl.edu.tw/handle/13365313645997560517
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