Thesis
Atmospheric re-entry analysis of space objects
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- Rights statement
- Awarding institution
- University of Strathclyde
- Date of award
- 2020
- Thesis identifier
- T15509
- Person Identifier (Local)
- 201561094
- Qualification Level
- Qualification Name
- Department, School or Faculty
- Abstract
- This Ph.D. work focuses on the investigation of numerical methods for estimating the aerodynamics and aerothermodynamics of space objects re-entering the Earth atmosphere. The well-known simplified panel methods applicable to hypersonic aerothermodynamics within continuum and rarefied flow regimes have been implemented in a numerical framework in order to assess different methods and techniques aiming at increasing their accuracy on arbitrarily shaped objects and assemblies. The main tested methods and techniques comprise: the use of a combination of panels visibility detection algorithms, the application of a local radius computation and smoothing algorithm, the introduction of high fidelity-based correction factors, and the definition of general rarefied transitional regime bridging functions for both aerodynamic and aerothermodynamics. Various re-entry scenarios, experimental tests, and literature references have been simulated with the proposed methods in order to understand their accuracy. A preliminary validation of the aerodynamics and aerothermodynamics was performed on different test cases: Space Shuttle Orbiter, Orion Crew Exploration Vehicle, Mars Microprobe, Stardust Sample Return Capsule, VEGA payload fairing, and various other test cases such as spheres, and blunted cones. A particular effort was made to define and apply the methods for allowing the simulation of complete atmospheric re-entry scenarios, in order to simulate and study controlled and uncontrolled re-entres of simple and complex objects assemblies.;In order to evaluate the applicability of the proposed methodologies, different re-entry scenarios have been simulated, such as: Stardust SRC (focusing on the thermal protection system ablation and temperature), and the Intermediate Experimental Vehicle (estimating the wall temperature over the re-entry). The last application which has been studied was the estimation of the re-entry human casualty risk as expressed by the space debris mitigation guidelines. For such application, a toy satellite was built and simulated using a statistical approach based on the use of surrogate models and Monte Carlo technique aiming at providing a statistical impact ground footprint along with the human casualty risk distribution for a set of uncertain parameters given as input.
- Advisor / supervisor
- Minisci, Edmondo
- Resource Type
- DOI
- Date Created
- 2020
- Former identifier
- 9912873993202996
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