Improvement of instantaneous point source model for simulating radionuclide diffusion in oceans under nuclear power plant accidents

Abstract

Simulation methods have become an important tool to reveal radionuclide migration during accidental radionuclide releases and predict influences of accidents on the marine environment. The instantaneous point source model is a useful meth od to simulate the large-scale radionuclide diffusion in marine areas. However, the simulation accuracy of this method requires improvement as it didn’t take radionuclide decay into account. In this study, an improved instantaneous point source model considering ra dionuclide decay was proposed on the basis of the original model. Furthermore, the instantaneous point source model and the improved ver sion were used to simulate the concentrations of 131I and 137Cs following the Fukushima Dai-ichi nuclear power plant accident. The results showed that the relative error of 131I concentrations decreased from 200.07% to 34.12% when using the improved model; and improvements in relative errors for 137Cs concentrations were not apparent as the simualtion period was much shorter than it s half-life period. Therefore, the improved model can accurately simulate the diffusion process for radionuclides following an accident a nd provides an efficient decision support tool for risk assessment managers and for use in safety guarantees of nuclear power plants during siting and operational phases.