Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/sage/seismic-energy-response-analysis-of-equipment-structure-system-via-bqLYBtJ5GX
References (38)
-
F. Wang, H. Li, T. Yi (2015)
Energy Spectra of Constant Ductility Factors for Orthogonal Bidirectional Earthquake ExcitationsAdvances in Structural Engineering, 18
-
Songye Zhu, Xiang Shi, R. Leung, Li Cheng, Stephen Ng, Xiao-Hua Zhang, Yuhong Wang (2014)
Impact of Construction-Induced Vibration on Vibration-Sensitive Medical Equipment: A Case StudyAdvances in Structural Engineering, 17
-
Michelle Chen, E. Pantoli, Xiang Wang, R. Astroza, H. Ebrahimian, T. Hutchinson, J. Conte, J. Restrepo, Claudia Marin, K. Walsh, R. Bachman, Matthew Hoehler, R. Englekirk, M. Faghihi (2016)
Full-Scale Structural and Nonstructural Building System Performance during Earthquakes: Part I – Specimen Description, Test Protocol, and Structural ResponseEarthquake Spectra, 32
-
A. Reggio, M. Angelis (2014)
Combined primary-secondary system approach to the design of an equipment isolation system with High-Damping Rubber BearingsJournal of Sound and Vibration, 333
-
(1994)
Two step method of the branched modal and its use for liquid-structure-pile-soil interaction system -
E. Kalkan, S. Kunnath (2008)
Relevance of Absolute and Relative Energy Content in Seismic Evaluation of StructuresAdvances in Structural Engineering, 11
-
Y. Tagawa, J. Tu, D. Stoten (2011)
Inverse dynamics compensation via ‘simulation of feedback control systems'Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, 225
-
Y. Lin, R. Christenson (2011)
Real-Time Hybrid Test Validation of a MR Damper Controlled Building with Shake Table TestsAdvances in Structural Engineering, 14
-
(2010)
Analysis of soil-structure interaction system based on transformer substations including main plant and electrical equipment interaction -
E. Bojórquez, A. Terán-Gilmore, S. Ruiz, A. Reyes-Salazar (2011)
Evaluation of Structural Reliability of Steel Frames: Interstory Drift versus Plastic Hysteretic EnergyEarthquake Spectra, 27
-
O. Mercan, J. Ricles (2009)
Experimental Studies on Real-Time Testing of Structures with Elastomeric DampersJournal of Structural Engineering-asce, 135
-
Yang Xiao-y (2014)
SHAKING TABLES TEST ON A LONG-SPAN RIGID-FRAMED BRIDGE CONSIDERING SOIL-STRUCTURE INTERACTIONEngineering mechanics
-
(2006)
State-of-the-art review on development of floor response spectrum -
A. Reggio, M. Angelis (2013)
Optimal design of an equipment isolation system with nonlinear hysteretic behaviourEarthquake Engineering & Structural Dynamics, 42
-
E. Heredia‐Zavoni, A. Perez-Perez, F. Barranco-Cicilia (2006)
A method for the transfer function matrix of combined primary–secondary systems using classical modal decompositionEarthquake Engineering & Structural Dynamics, 35
-
M. Nakashima, Hiroto Kato, E. Takaoka (1992)
Development of real‐time pseudo dynamic testingEarthquake Engineering & Structural Dynamics, 21
-
L. Lu, G. Lin (2008)
Predictive control of smart isolation system for precision equipment subjected to near-fault earthquakesEngineering Structures, 30
-
Qin Li (2004)
Seismic analysis on multiply supported secondary systems with detached connecting areaWorld Information On Earthquake Engineering
-
T. Nguyen, T. Dao, Sriram Aaleti, J. Lindt, K. Fridley (2018)
Seismic assessment of a three-story wood building with an integrated CLT-lightframe system using RTHSEngineering Structures
-
A. Filiatrault, T. Sullivan (2014)
Performance-based seismic design of nonstructural building components: The next frontier of earthquake engineeringEarthquake Engineering and Engineering Vibration, 13
-
C. Alhan, H. Gavin (2005)
Reliability of base isolation for the protection of critical equipment from earthquake hazardsEngineering Structures, 27
-
Qiang Wang, Jin‐Ting Wang, F. Jin, Fu-Dong Chi, Chuhan Zhang (2011)
Real-time dynamic hybrid testing for soil–structure interaction analysisSoil Dynamics and Earthquake Engineering, 31
-
T. Ahn, Young-Ju Kim, Sangdae Kim (2013)
Large-Scale Testing of Coupled Shear Wall Structures with Damping DevicesAdvances in Structural Engineering, 16
-
K. Wong, Y. Chee (2004)
Energy dissipation of tuned mass dampers during earthquake excitationsThe Structural Design of Tall and Special Buildings, 13
-
S. Günay, K. Mosalam, S. Takhirov (2015)
Real-time hybrid simulation in a shaking table configuration for parametric studies of high-voltage equipment and IEEE693 developmentNuclear Engineering and Design, 295
-
G. Mosqueda, R. Retamales, A. Filiatrault, A. Reinhorn (2009)
Testing facility for experimental evaluation of non‐structural components under full‐scale floor motionsThe Structural Design of Tall and Special Buildings, 18
-
Genda Chen, T. Soong (1994)
Energy-Based Dynamic Analysis of Secondary SystemsJournal of Engineering Mechanics-asce, 120
-
Bo Wen, E. Taciroglu, D. Niu (2015)
Shake Table Testing and Numerical Analysis of Transformer Substations Including Main Plant and Electrical Equipment InteractionAdvances in Structural Engineering, 18
-
(2016)
2016) Study on the stability prediction of real-time dynamic substructuring system based on shaking table -
Sachi Furukawa, E. Sato, Yundong Shi, T. Becker, M. Nakashima (2013)
Full‐scale shaking table test of a base‐isolated medical facility subjected to vertical motionsEarthquake Engineering & Structural Dynamics, 42
-
Li Jie (2003)
SHAKING TABLE TESTS ON SPATIAL STRUCTURE-EQUIPMENT MODEL SYSTEMSEngineering mechanics
-
Sung‐Kyung Lee, E. Park, K. Min, Sang-Hyun Lee, L. Chung, Ji-Hun Park (2007)
Real-time hybrid shaking table testing method for the performance evaluation of a tuned liquid damper controlling seismic response of building structuresJournal of Sound and Vibration, 302
-
(2016)
Study on the stability prediction of real - time dynamic substructuring system based on shaking table -
Yungong Li (2005)
STUDY OF ORBIT ANALYSIS BASED ON COMPLEX PROCESS HIGH ORDER CUMULANT SPECTRUMChinese Journal of Mechanical Engineering, 41
-
B. Chen, S. Weng, L. Zhi, Dongming Li (2017)
Response control of a large transmission tower-line system under seismic excitations using friction dampersAdvances in Structural Engineering, 20
-
K. Mosalam, S. Günay, S. Takhirov (2016)
Response evaluation of interconnected electrical substation equipment using real‐time hybrid simulation on multiple shaking tablesEarthquake Engineering & Structural Dynamics, 45
-
Yu-Cheng Fan, C. Loh, Jann Yang, P. Lin (2009)
Experimental performance evaluation of an equipment isolation using MR dampersEarthquake Engineering & Structural Dynamics, 38
-
(2014)
Control mechanism and performance analysis of a mega-sub structure control system
- Publisher
- SAGE
- Copyright
- © The Author(s) 2019
- ISSN
- 1369-4332
- eISSN
- 2048-4011
- DOI
- 10.1177/1369433219864458
- Publisher site
- See Article on Publisher Site
Abstract
Dynamic equations are presented that have been deduced for a real-time dynamic substructuring shaking table test of an equipment-structure system, based on the branch mode substructure method. The equipment is adopted as the experimental substructure, which is loaded by the shaking table, while the structure is adopted as the numerical substructure. Real-time data communication occurs between the two substructures during the test. A real-time seismic energy calculation method was proposed for the calculation of energy responses, both in the experimental substructure and the numerical substructure. Taking a representative four-story steel frame/equipment model, real-time dynamic substructuring shaking table tests and overall model tests were executed. The proposed real-time dynamic substructuring shaking table testing method was verified by comparing the test results with shaking table test results for the overall model. The energy responses of each component in the equipment-structure system, using different connection types, also were studied. Changes in the connection types can lead to changes in the energy responses of the equipment-structure system, especially with respect to the equipment. The choice of the connection for the equipment-structure coupled system should take into account the operational performance objective of the equipment.
Journal
Advances in Structural Engineering – SAGE
Published: Jan 1, 2020