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Current Status on Radiation Modeling for the Hayabusa Re-entry (2011)

Winter, Michael W. ; McDaniel, Ryan D. ; Chen, Yih-Kang ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: On June 13, 2010 the Japanese Hayabusa capsule performed its reentry into the Earths atmosphere over Australia after a seven year journey to the asteroid Itokawa. The reentry was studied by numerous imaging and spectroscopic instruments onboard NASA's DC-8 Airborne Laboratory and from three sites on the ground, in order to measure surface and plasma radiation generated by the Hayabusa Sample Return Capsule (SRC). Post flight, the flow solutions were recomputed to include the whole flow field around the capsule at 11 points along the reentry trajectory using updated trajectory information. Again, material response was taken into account to obtain most reliable surface temperature information. These data will be used to compute thermal radiation of the glowing heat shield and plasma radiation by the shock/post-shock layer system to support analysis of the experimental observation data. For this purpose, lines of sight data are being extracted from the flow field volume grids and plasma radiation will be computed using NEQAIR [4] which is a line-by-line spectroscopic code with one-dimensional transport of radiation intensity. The procedures being used were already successfully applied to the analysis of the observation of the Stardust reentry [5].

Keywords: Space Radiation

Type: ARC-E-DAA-TN3212 , Workshop on Re-Entry Emission Signatures V; Mar 21, 2011 - Mar 22, 2011; Brisbane; Australia

Format: application/pdf

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Aerodynamic Shape Optimization of Complex Aircraft Configurations via an Adjoint Formulation (1996)

Martinelli, Luigi ; Jameson, Antony ; Farmer, James ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This work describes the implementation of optimization techniques based on control theory for complex aircraft configurations. Here control theory is employed to derive the adjoint differential equations, the solution of which allows for a drastic reduction in computational costs over previous design methods (13, 12, 43, 38). In our earlier studies (19, 20, 22, 23, 39, 25, 40, 41, 42) it was shown that this method could be used to devise effective optimization procedures for airfoils, wings and wing-bodies subject to either analytic or arbitrary meshes. Design formulations for both potential flows and flows governed by the Euler equations have been demonstrated, showing that such methods can be devised for various governing equations (39, 25). In our most recent works (40, 42) the method was extended to treat wing-body configurations with a large number of mesh points, verifying that significant computational savings can be gained for practical design problems. In this paper the method is extended for the Euler equations to treat complete aircraft configurations via a new multiblock implementation. New elements include a multiblock-multigrid flow solver, a multiblock-multigrid adjoint solver, and a multiblock mesh perturbation scheme. Two design examples are presented in which the new method is used for the wing redesign of a transonic business jet.

Keywords: Aircraft Design, Testing and Performance

Type: NASA-CR-203275 , NAS 1.26:203275 , RIACS-TR-96-02 , AIAA Paper 96-0094 , Aerospace Sciences Meeting and Exhibit; Jan 01, 1996; United States

Format: application/pdf

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