New Structural Seismic Isolation for Nuclear Containment Structures

Abstract EN

The new Structural Seismic Isolation System (SSIS) intends to provide high safety for important structures such as nuclear power plants, offshore oil platforms, and high-rise buildings against near-fault and long-period earthquakes.

The presented SSIS structure foot base and foundation contact surfaces have been designed as any curved surfaces (spherical, elliptical, etc.) depending on the earthquake-soil-superstructure parameters, and these contact surfaces have been separated by using elastomeric (lead core rubber or laminated rubber bearings with up to 4-second period) seismic isolation devices.

It would allow providing inverse pendulum behavior to the structure.

As a result of this behavior, the natural period of the structure will possess greater intervals which are larger than the predominant period of the majority of the possible earthquakes including near-fault zones.

Consequently, the structure can maintain its serviceability after the occurrence of strong and long-period earthquakes.

This study has investigated the performance of the SSIS for the nuclear containment (SSIS-NC) structure.

The finite element model of SISS-NC structure has been developed, and nonlinear dynamic analysis of the model has been conducted under the strong and long-period ground motions.

The results have been presented in comparison with the conventional application method of the seismic base isolation devices for nuclear containment (CAMSBID-NC) and fixed base nuclear containment (FB-NC) structures.

The base and top accelerations, effective stress, and critical shear stress responses of the SSIS-NC structure are 48.67%, 36.70%, and 32.60% on average lower than those of CAMSBID-NC structure, respectively.

The result also confirms that the SSIS-NC structure did not cause resonant vibrations under long-period earthquakes.

On the other hand, there is excessive deformation in the isolation layers of CAMSBID-NC structure.