Title of article
Soil–structure interaction in fuel handling building Original Research Article
Author/Authors
Bahaa M. Elaidi، نويسنده , , Mohsen A. Eissa، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1998
Pages
12
From page
145
To page
156
Abstract
This paper presents an accurate three-dimensional seismic soil–structure interaction analysis for large structures. The method is applied to the fuel building in nuclear power plants. The analysis is performed numerically in the frequency domain and the responses are obtained by inverse Fourier transformation. The size of the structure matrices is reduced by transforming the equation of motion to the modal coordinate system. The soil is simulated as a layered media on top of viscoelastic half space. Soil impedance matrices are calculated from the principles of continuum mechanics and account for soil stiffness and energy dissipation. Effects of embedment on the field equations is incorporated through the scattering matrices or by simply scaling the soil impedance. Finite element methods are used to discretize the concrete foundation for the generation of the soil interaction matrices. Decoupling of the sloshing water in the spent fuel pools and the free-standing spent fuel racks is simulated. The input seismic motions are defined by three artificial time history accelerations. These input motions are generated to match the ground design basis response spectra and the target power spectral density function. The methods described in this paper can handle arbitrary foundation layouts, allows for large structural models, and accurately represents the soil impedance. Time history acceleration responses were subsequently used to generate floor response spectra at applicable damping values.
Journal title
Nuclear Engineering and Design Eslah
Serial Year
1998
Journal title
Nuclear Engineering and Design Eslah
Record number
888520
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