Publications Details

Sensitivity Analysis of Air/Carbon Finite-Rate Surface Ablation Models

Mussoni, Erin E.; Wagnild, Ross M.; Winokur, Justin W.; Delplanque, Jean P.R.

Quantifying gas-surface interactions for hypersonic reentry applications remains a challenging and complex problem where credible models are needed to design and analyze thermal protection systems. A flexible sensitivity analysis approach is demonstrated to analyze finite-rate ablation models to identify reaction parameters and mechanisms of influence on predicted quantities of interest. Simulations of hypersonic flow over a sphere-cone are presented using parameterized Park, Zhluktov and Abe (ZA), and MURI finite-rate models that describe the oxidation and sublimation of carbon. The results presented in this study emphasize the importance of characterizing model inputs that are shown to have a high impact on predicted quantities and build evidence to assess credibility of these models.