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Resilient design in nuclear energy: Critical lessons from a cross-disciplinary analysis of the Fukushima Dai-ichi nuclear accident

Ali Ayoub, Haruko Wainwright, Giovanni Sansavini, Randall O. Gauntt, Kimiaki Saitô

2024iScience17 citationsDOIOpen Access PDF

Abstract

This paper presents a multidisciplinary analysis of the Fukushima Dai-ichi Nuclear Power Plant accident. Along with the latest observations and simulation studies, we synthesize the time-series and event progressions during the accident across multiple disciplines, including in-plant physics and engineering systems, operators' actions, emergency responses, meteorology, radionuclide release and transport, land contamination, and health impacts. We identify three key factors that exacerbated the consequences of the accident: (1) the failure of Unit 2 containment venting, (2) the insufficient integration of radiation measurements and meteorology data in the evacuation strategy, and (3) the limited risk assessment and emergency preparedness. We conclude with new research and development directions to improve the resilience of nuclear energy systems and communities, including (1) meteorology-informed proactive venting, (2) machine learning-enabled adaptive evacuation zones, and (3) comprehensive risk-informed emergency planning while leveraging the experience from responses to other disasters.

Topics & Concepts

Nuclear power plantFukushima Nuclear AccidentResilience (materials science)Nuclear powerPreparednessMultidisciplinary approachEmergency managementEnvironmental scienceEngineeringRisk analysis (engineering)AeronauticsBusinessPolitical sciencePhysicsNuclear physicsLawThermodynamicsRadioactive contamination and transferRisk Perception and ManagementDisaster Management and Resilience