Hypersonic Conceptual Design Tool Comparison

Wnek, James G.

01 June 2022

No description available.

Aerospace Engineering

Hypersonic

Aerodynamics

Conceptual Design

CFD

Hypersonic CFD

CBAERO

Cart3D

Kestrel

CBAS: A Multi-Fidelity Surrogate Modeling Tool For Rapid Aerothermodynamic Analysis

Tyler Scott Adams (18423228)

23 April 2024

<p dir="ltr"> The need to develop reliable hypersonic capabilities is of critical import today. Among the most prominent tools used in recent efforts to overcome the challenges of developing hypersonic vehicles are NASA's Configuration Based Aerodynamics (CBAERO) and surrogate modeling techniques. This work presents the development of a tool, CBAERO Surrogate (CBAS), which leverages the advantages of both CBAERO and surrogate models to create a simple and streamlined method for building an aerodynamic database for any given vehicle geometry. CBAS is capable of interfacing with CBAERO directly and builds Kriging or Co-Kriging surrogate models for key aerodynamic parameters without significant user or computational effort. Two applicable geometries representing hypersonic vehicles have been used within CBAS and the resulting Kriging and Co-Kriging surrogate models evaluated against experimental data. These results show that the Kriging model predictions are accurate to CBAERO's level of fidelity, while the Co-Kriging model predictions fall within 0.5%-5% of the experimental data. These Co-Kriging models produced by CBAS are 10%-50% more accurate than CBAERO and the Kriging models and offer a higher fidelity solution while maintaining low computational expense. Based on these initial results, there are promising advancements to obtain in future work by incorporating CBAS to additional applications.</p>

Systems engineering

Kriging

Multi-fidelity surrogate

Surrogate Modelling

CBAERO

Hypersonic Aerodynamics

Aerothermodynamics

Co-Kriging

Aerothermodynamic Database