System level thermal analysis of space vehicles carrying ablative shields is usually performed by coupling the Thermal Mathematical Model (TMM) of the re-entry vehicle with the ablative bond line temperature resulting from thermo-ablative simulation. Such simulation is typically conducted by superimposing an ablative back wall condition. During these years, thanks also to the direct experience gained on ESA programs involving ablative shields like IXV, the need of a more strongly coupled thermal analysis has become higher in order to optimize both shield and thermal control designs. Being this numerical procedure involving different software, hence requiring the management of a complex iterative approach, the claim for a "one shot run" increased, this to remove time consuming and error prone iterations and improve model management/configuration control. In this frame TAS-I and Politecnico di Torino developed a new tool able to run directly into ESATAN the ablative analysis, allowing a full integration of ablative shield model with the host vehicle TMM. This paper describes the analytical model and 1D numerical scheme adopted and the verification and validation runs performed.

Ablative Thermal Analysis Tool in ESATAN / Giardino, Marco; Campagnoli, Elena; Andrioli, Lorenzo; Pippia, Gianni. - CD-ROM. - (2012). (Intervento presentato al convegno AIAA 2012: 42nd International Conference on Environmental Systems tenutosi a San Diego, California (USA) nel 15-19 July, 2012) [10.2514/6.2012-3624].

Ablative Thermal Analysis Tool in ESATAN

CAMPAGNOLI, Elena;
2012

Abstract

System level thermal analysis of space vehicles carrying ablative shields is usually performed by coupling the Thermal Mathematical Model (TMM) of the re-entry vehicle with the ablative bond line temperature resulting from thermo-ablative simulation. Such simulation is typically conducted by superimposing an ablative back wall condition. During these years, thanks also to the direct experience gained on ESA programs involving ablative shields like IXV, the need of a more strongly coupled thermal analysis has become higher in order to optimize both shield and thermal control designs. Being this numerical procedure involving different software, hence requiring the management of a complex iterative approach, the claim for a "one shot run" increased, this to remove time consuming and error prone iterations and improve model management/configuration control. In this frame TAS-I and Politecnico di Torino developed a new tool able to run directly into ESATAN the ablative analysis, allowing a full integration of ablative shield model with the host vehicle TMM. This paper describes the analytical model and 1D numerical scheme adopted and the verification and validation runs performed.
2012
978-1-60086-934-1
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2618157
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