An hybrid approach to optimization is applied to the aerodynamic design of a device that acts as a facility nozzle and inlet distortion generator for a direct-connect scramjet combustor test-rig. The solution of the design problem is sought by using different approaches of CFD analysis and optimization tools. The initial design is based on the solution of an inverse problem coupled to optimization by genetic algorithms. The result of the optimization is then tested by CFD simulations of the direct-connect facility and the shock reflection patterns are compared toat of the in-flight configuration. The verification of nozzle design and the assessment of the prescribed flow distortion are then carried out by numerical simulations of the flowfield of the whole direct-connect facility by an URANS solver. The proposed procedure is checked by designing a facility nozzle and distortion generator system for a scramjet model available in the open literature.
Optimal Aerodynamic Design of Scramjet Facility Nozzles / Degregori, Enrico; Ferlauto, Michele. - ELETTRONICO. - 1978:(2018), p. 4700114. (Intervento presentato al convegno 15th International Conference on Numerical Analysis and Applied Mathematics tenutosi a Thessaloniki, Greece nel 25-30 September 2017) [doi: 10.1063/1.5048596].
Optimal Aerodynamic Design of Scramjet Facility Nozzles
Ferlauto, Michele
2018
Abstract
An hybrid approach to optimization is applied to the aerodynamic design of a device that acts as a facility nozzle and inlet distortion generator for a direct-connect scramjet combustor test-rig. The solution of the design problem is sought by using different approaches of CFD analysis and optimization tools. The initial design is based on the solution of an inverse problem coupled to optimization by genetic algorithms. The result of the optimization is then tested by CFD simulations of the direct-connect facility and the shock reflection patterns are compared toat of the in-flight configuration. The verification of nozzle design and the assessment of the prescribed flow distortion are then carried out by numerical simulations of the flowfield of the whole direct-connect facility by an URANS solver. The proposed procedure is checked by designing a facility nozzle and distortion generator system for a scramjet model available in the open literature.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2685038
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