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Mesh-Free Simulation of Spatially Inhomogeneous Aerosols in Arbitrary Geometries

Matthew Boraas, Sudarshan K. Loyalka

Nuclear Science and Engineering / Volume 193 / Number 3 / March 2019 / Pages 211-232

Technical Paper / dx.doi.org/10.1080/00295639.2018.1516953

Received:June 6, 2018
Accepted:August 24, 2018
Published:February 13, 2019

While many issues affect the composition and quantity of the nuclear source term, one significant factor is the existence of aerosols. These aerosols, found in the containment structure and in the primary reactor vessel, are usually simulated with the assumption that they are spatially homogeneous. We describe here new investigations of the applications of the Direct Simulation Monte Carlo method and a mesh-free technique to spatially inhomogeneous aerosol evolution in a number of nonspherical and complex geometries. Deposition, coagulation, and condensation aerosol processes are included, and results are reported for a sphere, ellipsoid, torus, elliptical cylinder, cuboid, and a spherical geometry containing an internal obstruction. Our progress here is a precursor to construction of an MCNP-like code for simulating aerosol evolution.