A Multifidelity Framework for Aerothermodynamic Modeling and Simulation of Destructive Atmospheric Entry

Author:

Morgado Fábio1ORCID,Abhishek Peddakotla Sai1,Graham Julie1,Vasile Massimiliano1ORCID,Fossati Marco1ORCID

Affiliation:

1. University of Strathclyde, Glasgow G1 1XJ, United Kingdom

Abstract

The aerothermodynamic environment surrounding bodies undergoing destructive atmospheric entry is characterized by multiple interacting shock waves generated by the presence of several fragments moving close to one another at high speed. Shock interaction and impingement produce highly localized surface loads, influencing the overall dynamics of the fragment, its temperature, and in turn its demise. To account for the relevant physics during the reentry process of fragmenting bodies, a multifidelity framework is presented that allows for selecting the most appropriate level of fidelity, between high-fidelity solutions or low-fidelity aerothermodynamic metamodels. A physics-informed approach is implemented to automatically choose between the two fidelity levels on the basis of the intersection of shock wave envelopes. The complete framework is validated on relevant test cases from the literature and its performance is demonstrated for destructive atmospheric reentry cases, such as the case of the Attitude Vernier Upper Module and the Automated Transfer Vehicle from the European Space Agency.

Funder

EU H2020 MSCA-ETN

European Space Agency

Publisher

American Institute of Aeronautics and Astronautics (AIAA)

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