과제정보
This research was supported by the Underground City of the Future Program and funded by the Ministry of Science and ICT.
참고문헌
- A. Filiatrault, T. Sullivan, Performance-based seismic design of nonstructural building components: the next frontier of earthquake engineering, Earthq. Eng. Eng. Vib. V13 (2014).
- J. Hur, Seismic Performance Evaluation of Switchboard Cabinets Using Nonlinear Numerical Models, Georgia Institute of Technology, 2012.
- E. Lim, A Method for Generating Simplified Finite Element Models for Electrical Cabinets, Georgia Institute of Technology, 2016.
- L. Baccarini, M. Capretta, M. Casirati, et al., Seismic Qualification Tests of Electric Equipment for Caorso Nuclear Plant: Comments on Adopted Test Procedure and Results, 1975.
- S.G. Cho, D. Kim, S. Chaudhary, A simplified model for nonlinear seismic response analysis of equipment cabinets in nuclear power plants, Nucl. Eng. Des. V241 (2011).
- M.K. Kim, I.K. Choi, A failure mode evaluation of a 480V MCC in nuclear power plants at the seismic events, in: 20th International Conference on Structural Mechanics in Reactor Technology, Finland, August 9-14, 2009, 2009.
- A.T. Cao, T.T. Tran, T.H.X. Nguyen, et al., Simplified approach for seismic risk assessment of cabinet facility in nuclear power plants based on cumulative absolute velocity, Nucl. Technol. V206 (2020).
- T.T. Tran, A.T. Cao, D. Kim, et al., Seismic vulnerability of cabinet facility with tuned mass dampers subjected to high-and low-frequency earthquakes, Appl. Sci. V10 (2020).
- W. Djordjevic, J.J. O'Sullivan, Guidelines for Development of In-Cabinet Amplified Response Spectra for Electrical Benchboards and Panels, Electric Power Research Inst, Palo Alto, CA (USA), 1990.
- A. Gupta, S.K. Rustogi, A.K. Gupta, Ritz vector approach for evaluating in cabinet response spectra, Nucl. Eng. Des. V190 (1999).
- A. Gupta, J. Yang, Modified Ritz vector approach for dynamic properties of electrical cabinets and control panels, Nucl. Eng. Des. V217 (2002).
- T.T. Tran, D. Kim, Uncertainty quantification for nonlinear seismic analysis of cabinet facility in nuclear power plants, Nucl. Eng. Des. V355 (2019).
- S.M. Lee, W.Y. Jung, Evaluation of anchorage performance of the switchboard cabinet under seismic loading condition, Adv. Mech. Eng. V12 (2020).
- S.G. Cho, K. Salman, Seismic demand estimation of electrical cabinet in nuclear power plant considering equipment-anchor-interaction, J. Nucl. Eng. Technol. V54 (2022).
- B.J. Goodno, N.C. Gould, P. Caldwell, et al., Effects of the January 2010 Haitian Earthquake on Selected, Electric. Equip. 27 (2011).
- T.T. Tran, A.T. Cao, D. Kim, Fragility assessment for electric cabinet in nuclear power plant using response surface methodology, Nucl. Eng. Technol. V51 (2019).
- A. Latif, K. Salman, D. Kim, Seismic response of electrical cabinets considering primary-secondary structure interaction with contact nonlinearity of anchors, Nucl. Sci. Technol. V59 (2022).
- K. Salman, T.T. Tran, D. Kim, Seismic capacity evaluation of NPP electrical cabinet facility considering grouping effects, Nucl. Sci. Technol. V57 (2020).
- K. Salman, T.T. Tran, D. Kim, Grouping effect on the seismic response of cabinet facility considering primary-secondary structure interaction, Nucl. Sci. Technol. V52 (2020).
- EEE-693-2005, IEEE Recommended Practice for Seismic Design of Substations, Institute of Electrical and Electronics Engineers, Piscataway, 2005.
- AC156, Acceptance Criteria for Seismic Qualification by Shake-table Testing of Nonstructural Components and Systems, 2006.
- C.H. Ng, P.Y. Chen, On the evolution of the regulatory guidance for seismic qualification of electric and active mechanical equipment for nuclear power plants, in: 2009 International Congress on Advances in Nuclear Power Plants, Japan, 10-14 May 2009, 2009.
- IEEE 344, IEEE Recommended Practice for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations, vol. 344, 2004.
- R. Brincker, L. Zhang, P. Andersen, Modal identification of output-only systems using frequency domain decomposition, Smart Mater. Struct. V10 (2001).
- B.H. Kim, N. Stubbs, T. Park, A new method to extract modal parameters using output-only responses, J. Sound Vib. V282 (2005).
- J. Cara, Modal identification of structures from input/output data using the Expectation-maximization algorithm and uncertainty quantification by mean of the bootstrap, Struct. Control Health Monit. V26 (2019).
- B.H. Park, K.J. Kim, Vector ARMAX Modeling Approach in Multi-Input Modal Analysis, Mechanical Systems and Signal Processing, vol. 3, 1989.
- R. Brincker, L. Zhang, and P. Andersen, "Modal Identification from Ambient Responses Using Frequency Domain Decomposition." pp. 625-630.
- K. Salman, S. Gook Cho, Effect of frequency content of earthquake on the seismic response of interconnected electrical equipment, CivilEng V1 (2020).
- T.T. Nahar, M.M. Rahman, D. Kim, Effective safety assessment of aged concrete gravity dam based on the reliability index in a seismically induced site, Appl. Sci. V11 (2021).
- S. Pakzad, Dynamics of civil structures, Proceedings of the 36th Imac, a Conference and Exposition on Structural Dynamics 2018, vol. 2, Springer, 2018.
- C. Shah, "Mesh Discretization Error and Criteria for Accuracy of Finite Element Solutions.".
- A.K. Chopra, Dynamics of Structures, fourth ed. ed., 2007.
- R.J. Morante, Recommendations for Revision of Seismic Damping Values in Regulatory Guide 1, vol. 61, Citeseer, 2006.
- M. Archila, C. Ventura, A. Figueira et al., "Modal Testing of Non-structural Components for Seismic Risk Assessment." pp. 239-246..
- D. Watkins, L. Chui, T. Hutchinson, et al., Survey and Characterization of Floor and Wall Mounted Mechanical and Electrical Equipment in Buildings, vol. 11, 2009.
- M. Miari, K.K. Choong, R. Jankowski, Seismic Pounding between Adjacent Buildings: Identification of Parameters, Soil Interaction Issues and Mitigation Measures, vol. 121, 2019.
- A. Richardson, K.K. Walsh, M.M. Abdullah, Closed-form Design Equations for Controlling Vibrations in Connected Structures, vol. 17, 2013.
- R. Jankowski, S. Mahmoud, Linking of Adjacent Three-Storey Buildings for Mitigation of Structural Pounding during Earthquakes, vol. 14, 2016.
- R.R. Craig, A.J. Kurdila, Fundamentals of Structural Dynamics, John Wiley & Sons, 2006.
- S. Moaveni, Finite Element Analysis Theory and Application with ANSYS, Pearson Education India, 2011.