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Pré-Publication, Document De Travail Année : 2022

Data-driven framework for input/output lookup tables reduction -- with application to hypersonic flows in chemical non-equilibrium

Résumé

In this paper, we present a novel model-agnostic machine learning technique to extract a reduced thermochemical model for reacting hypersonic flows simulation. A first simulation gathers all relevant thermodynamic states and the corresponding gas properties via a given model. The states are embedded in a low-dimensional space and clustered to identify regions with different levels of thermochemical (non)-equilibrium. Then, a surrogate surface from the reduced cluster-space to the output space is generated using radial-basis-function networks. The method is validated and benchmarked on a simulation of a hypersonic flat-plate boundary layer with finite-rate chemistry. The gas properties of the reactive air mixture are initially modeled using the open-source Mutation++ library. Substituting Mutation++ with the light-weight, machine-learned alternative improves the performance of the solver by 50% while maintaining overall accuracy.
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Dates et versions

hal-03852556 , version 1 (15-11-2022)
hal-03852556 , version 2 (29-03-2023)

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Clément Scherding, Georgios Rigas, Denis Sipp, Peter J. Schmid, Taraneh Sayadi. Data-driven framework for input/output lookup tables reduction -- with application to hypersonic flows in chemical non-equilibrium. 2022. ⟨hal-03852556v1⟩
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