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A Risk-Based Approach for Aerothermal/TPS Analysis and TestingThe current status of aerothermal and thermal protection system modeling for civilian entry missions is reviewed. For most such missions, the accuracy of our simulations is limited not by the tools and processes currently employed, but rather by reducible deficiencies in the underlying physical models. Improving the accuracy of and reducing the uncertainties in these models will enable a greater understanding of the system level impacts of a particular thermal protection system and of the system operation and risk over the operational life of the system. A strategic plan will be laid out by which key modeling deficiencies can be identified via mission-specific gap analysis. Once these gaps have been identified, the driving component uncertainties are determined via sensitivity analyses. A Monte-Carlo based methodology is presented for physics-based probabilistic uncertainty analysis of aerothermodynamics and thermal protection system material response modeling. These data are then used to advocate for and plan focused testing aimed at reducing key uncertainties. The results of these tests are used to validate or modify existing physical models. Concurrently, a testing methodology is outlined for thermal protection materials. The proposed approach is based on using the results of uncertainty/sensitivity analyses discussed above to tailor ground testing so as to best identify and quantify system performance and risk drivers. A key component of this testing is understanding the relationship between the test and flight environments. No existing ground test facility can simultaneously replicate all aspects of the flight environment, and therefore good models for traceability to flight are critical to ensure a low risk, high reliability thermal protection system design. Finally, the role of flight testing in the overall thermal protection system development strategy is discussed.
Document ID
20080018722
Acquisition Source
Ames Research Center
Document Type
Conference Paper
Authors
Wright, Michael J.
(NASA Ames Research Center Moffett Field, CA, United States)
Grinstead, Jay H.
(NASA Ames Research Center Moffett Field, CA, United States)
Bose, Deepak
(Eloret Corp. Sunnyvale, CA, United States)
Date Acquired
August 24, 2013
Publication Date
July 1, 2007
Publication Information
Publication: Experiment, Modeling and Simulation of Gas-Surface Interactions for Reactive Flows in Hypersonic Flights
Subject Category
Space Sciences (General)
Distribution Limits
Public
Copyright
Other
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