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The results of four gas tracer experiments of atmospheric dispersion on a regional scale are used     for the benchmarking of two atmospheric dispersion modeling codes, MINERVE-SPRAY (CEA),     and NOSTRADAMUS (IBRAE). The main topic of this comparison is to estimate the Lagrangian code     capability to predict the radionuclide atmospheric transfer on a large field, in the case of risk     assessment of nuclear power plant for example. For the four experiments, the results of calculations     show a rather good agreement between the two codes, and the order of magnitude of the     concentrations measured on the soil is predicted. Simulation is best for sampling points located ten     kilometers from the source, while we note a divergence for more distant points results     (difference in concentrations by a factor 2 to 5). This divergence may be explained by the fact that,     for these four experiments, only one weather station (near the point source) was used on a     field of 10 000 km2, generating the simulation of a uniform wind field throughout the calculation domain

Atmospheric Transport Modeling with 3D Lagrangian Dispersion Codes Compared with SF6 Tracer Experiments at Regional Scale