Davide Ninni scite author profile

During atmospheric entry, the flow environment around capsules or space debris is characterized by complex fluid thermochemistry and gas-surface interactions (GSI). Computational fluid dynamics (CFD) simulations of these conditions are crucial in the design process of such objects. A promising approach for the simulation of complex geometries is the use of immersed boundary methods (IBM) and adaptive mesh refinement techniques (AMR). These methods offer reliable and efficient mesh generation and adaptation with minimal user intervention. To that end, this paper presents the recent developments of two IBM-AMR solvers coupled with the same external thermochemistry library for the accurate modelling of such complex flows including GSI. Several verification and validation cases are presented, which demonstrate the performance of the solvers. Results are analyzed in comparison with a body-conforming solver that uses the same thermochemistry library to achieve a consistent assessment of the underlying numerical methods. A good agreement between all the solvers is indicated with certain discrepancies arising due to the differences in surface treatments.

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Hypersonic flows with detailed state-to-state kinetics using a GPU cluster

Pascazio¹,

Ninni²,

Bonelli³

et al. 2022

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Davide Ninni

MODULO: A software for Multiscale Proper Orthogonal Decomposition of data

Unsteady behavior and thermochemical non equilibrium effects in hypersonic double-wedge flows

On the influence of non equilibrium in the free stream conditions of high enthalpy oxygen flows around a double-cone

Verification and Validation of Immersed Boundary Solvers for Hypersonic Flows with Gas-Surface Interactions

Hypersonic flows with detailed state-to-state kinetics using a GPU cluster

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