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Article Dans Une Revue Journal of Environmental Radioactivity Année : 2023

Use of machine learning and deep learning to predict particulate 137Cs concentrations in a nuclearized river

Résumé

Cesium-137, discharged by nuclear installations under normal operations and deposited in watersheds decades. Thus, modelling of 137 Cs concentration in rivers have been developed based on geochemical approaches and equilibrium assumptions (solid/liquid ratio) as this radionuclide has moved into rivers and oceans due to soil erosion. Recently a new approach is possible to model these concentrations with the popularization of data-driven models based on data acquired in the environment by monitoring networks. In this study, the concentrations of particulate cesium-137 measured near the mouth of the Rhône River (France), a highly nuclearized river, are simulated using two data-driven models, a Hierarchical Attention-Based Recurrent Highway Networks (HRHN) and a Random Forest Regressor (RF). The data-driven predictions were done using only hydrological data (water discharge and suspended solid fluxes) and industrial input of 137 Cs. Although the data-driven models provided a better prediction than a recent empirical model, the best prediction (R² = 0.71) was obtained with HRHN, a model that considers the temporal aspect of the monitoring data. The most important predictors were the hydrological data at the monitoring station and of the tributary that generate the most sediment flux (Durance River). In fact, the concentration of 137 Cs in the perimeter of this study was more related to hydrology than to nuclear release, as there were few events with high 137 Cs concentrations (concomitant nuclear release and low water discharge). However, the HRHN approach, which is more complex to implement than RF, can predict the concentrations of such events correctly despite their low representation of these events. The results of this study demonstrate the usefulness of data-driven models to assist monitoring programs by filling in gaps or helping to understand observed concentrations.
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Dates et versions

hal-04208075 , version 1 (15-09-2023)

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Paternité - Pas d'utilisation commerciale - Pas de modification

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Hugo Lepage, Valerie Nicoulaud Gouin, Kathleen Pele, Patrick Boyer. Use of machine learning and deep learning to predict particulate 137Cs concentrations in a nuclearized river. Journal of Environmental Radioactivity, 2023, OSR, 270, pp.107294. ⟨10.1016/j.jenvrad.2023.107294⟩. ⟨hal-04208075⟩
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