Abstract
Due to the excellent impact resistant performance of steel-plate concrete (SC) structure compared with the conventional reinforced concrete (RC) structure, SC structure is preferred to be used in the design of external walls of nuclear island buildings for new nuclear power plants (NPPs). This study aims at evaluating the effect of material and geometric parameters of SC containment on its impact resistant performance, thus the numerical simulation and sensitivity analysis of SC containment subjected to malicious large commercial aircraft attack are conducted based on the force time-history analysis method. The results show that: (1) the impact resistant performance of full SC containment is better than that of half SC containment; (2) for relatively thin full SC containment, the impact response and concrete damage can be significantly reduced by the enhancing of concrete strength grade or the increasing of steel plate thickness; (3) for the thicker full SC containment, concrete strength grade has only a slight influence on the impact displacement response, and the increasing of steel plate thickness has no significant effect on mitigating the impact displacement response. However, the increasing of steel plate thickness can effectively reduce its plastic strain, and the decreasing of strength grade of steel plate may obviously increase its plastic strain; and (4) concrete thickness plays a decisive role on the improvement of impact resistance, which is more effective than the enhancing of concrete strength grade. Resultantly, this paper provides a reference and guidance for the design of SC structure external walls of nuclear island buildings against a large commercial aircraft.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
Sensitivity analysis is conducted to evaluate the effect of related parameters on the behavior of full steel-plate concrete (SC) containment
Ment is better than that of half SC containment, and the steel plate located at outer face of containment is better than that of half SC containment, and the steel plate located at outer containment is better than that at inner face for half SC containment
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. After the 9/11 incident, nuclear power plants (NPPs) against malicious impact of a large commercial aircraft has become a significant focus of nuclear safety. Under these circumstances, the U.S Nuclear Regulatory Commission (NRC)’s regulations issued in 2009 required licensee to perform a specific assessment regarding the impact of a large commercial aircraft on the facility as a beyond design basis event [1]. Technology guidance of NEI 07-13 [2] provided an acceptable method to satisfy NRC’s regulations of 10 CFR. For the nonlinear dynamic analysis, global structure response of the target structure can be evaluated based on force time-history analysis method or missile-target interaction analysis method
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