An algorithm for reconstructing the temporal evolution of the ambient equivalent γ-radiation dose rate during rain has been developed

 

   With regard to reconstructing the gamma background dose rate, existing models are either empirical with limited applicability or have many unknown input parameters, which complicates their application in practice. Due to this, there is a need to search for a new approach and build a convenient, easily applicable and universal model. The paper proposes a mathematical model for reconstructing the temporal evolution of the ambient equivalent γ-radiation dose rate during rain episodes, depending on the density of radon flux from the soil surface, as well as the duration and intensity of rain. The efficiency of the model is confirmed by the high coefficient of determination (R2 = 0.81–0.99) between the measured and reconstructed ambient equivalent dose rate during periods of rain, the simulation of which was performed using Wolfram Mathematica. An algorithm was developed for restoring the dynamics of the ambient equivalent γ-radiation dose rate during rainfall. Based on the results obtained, assumptions were made where the washout of radionuclides originates. The influence of the radionuclides ratio on the increase in the total γ-radiation dose rate was investigated.

 

   V. Yakovleva, A. Zelinskiy, R. Parovik, G.i Yakovlev, A. Kobzev Model for Reconstruction of gamma-Background during Liquid Atmospheric Precipitation. Mathematics 2021, 9(14), 1636; https://doi.org/10.3390/math9141636