A finite-volume two-dimensional plane/axisymmetric heat-conduction solver for solid materials has been developed and coupled with a hypersonic flow solver to the aim of evaluating the thermal load on a body that is immersed in a high-speed flow. Different coupling strategies that can be enforced between the two solvers were considered and are discussed here. A tight coupling technique is particularly suitable for unsteady time-accurate calculations, but due to the large difference between fluid dynamics and heat conduction time scales, this may lead to unacceptable computational times. A valid alternative approach is to proceed with a series of “quasistationary” states, allowing the heat-conduction solver to evolve in a loosely coupled fashion using time steps which are large with respect to the flow time scale. The obtained results are compared with available numerical and experimental data, showing a fairy good agreement.

Numerical Method For Conjugate Heat Transfer Problems in Hypersonic Flows / Ferrero, P; D'Ambrosio, Domenic. - STAMPA. - (2008). (Intervento presentato al convegno 40TH AIAA THERMOPHYSICS CONFERENCE tenutosi a Seattle, WA (USA) nel JUNE 23-26, 2008).

Numerical Method For Conjugate Heat Transfer Problems in Hypersonic Flows

D'AMBROSIO, Domenic
2008

Abstract

A finite-volume two-dimensional plane/axisymmetric heat-conduction solver for solid materials has been developed and coupled with a hypersonic flow solver to the aim of evaluating the thermal load on a body that is immersed in a high-speed flow. Different coupling strategies that can be enforced between the two solvers were considered and are discussed here. A tight coupling technique is particularly suitable for unsteady time-accurate calculations, but due to the large difference between fluid dynamics and heat conduction time scales, this may lead to unacceptable computational times. A valid alternative approach is to proceed with a series of “quasistationary” states, allowing the heat-conduction solver to evolve in a loosely coupled fashion using time steps which are large with respect to the flow time scale. The obtained results are compared with available numerical and experimental data, showing a fairy good agreement.
2008
9781605603711
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/1914901
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