Simplified Chernobyl Analysis: Unveiling Design Flaws in the RBMK Reactor
This paper uses simplified numerical models to analyze the Chernobyl accident. The study reveals that the accident was closely related to design flaws in the RBMK reactor. Its large size and weak power negative feedback coefficient made reactor power difficult to control, even with an automatic system, leading to easily triggered xenon oscillations. The safety rod design, when the upper half of the core experienced xenon poisoning, initially increased core reactivity. This resulted in a high-pressure increase, a strong shock wave in the fuel channels, and the destruction of pressure tubes. The subsequent depressurization (flash evaporation) further exacerbated the accident. The study also evaluates the fission energy released during the accident and discusses the reactor's stability and control strategies.