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Université d'Orléans |  |
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Université d'Orléans | |
| HAL: hal-00641635, version 1 |
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| Collection of Technical Papers - 4th International Energy Conversion Engineering Conference 1 (2006) 298-308 |
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| Numerical and experimental validation of transient modelling for Scramjet active cooling with supercritical endothermic fuel |
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| Nicolas Gascoin 1, 2, 3Philippe Gillard 3 |
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| (2006) |
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| One of the main issues of hypersonic flight is the thermal management of the overall vehicle and more specifically the cooling of the engine. In order to simulate the behaviour of a complete actively cooled scramjet, a one-dimensional transient numerical model has been developed with heat and mass transfer in a cooling channel for supercritical fuel under pyrolysis. This model is called RESPIRE (French acronym for Scramjet Cooling with Endothermic Fuel., Transient Reactor Programming). A supplementary step by step validation of the model, based on 2-D numerical data from CFD-ACE, is presented in this paper. On stationary cases, fluid temperature profiles are in good agreement and values are comprised between those of centre fluid and those of near-wall fluid. Effects of one-dimensional semi-empirical correlations are shown and the boundary layer impact at the channel entrance is of great importance on wall temperatures. Heat fluxes conservation is verified and hydraulic behaviour too. On transient cases, temperature and velocity evolutions are well followed. Values after the change in mass flow rate are exactly those of stationary test case. RESPIRE is quantitatively validated under stationary and transient conditions and can be used to compare with experimental data. Qualitatively good agreement is found with experimental results on a chemical aspect. |
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| 1: | Laboratoire Energétique Explosions Structures (LEES) |
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Université d'Orléans |
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| 2: | Laboratoire Vision & Robotique (LVR) |
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Université d'Orléans |
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| 3: | Laboratoire PRISME (PRISME) |
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Université d'Orléans : EA4229 – ENSI Bourges |
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| 4: | MBDA (MBDA-F) |
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EADS |
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| Univ. Orléans, PRISME, CE |
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| Subject | : | Chemical Sciences/Analytical chemistry Computer Science/Modeling and Simulation Engineering Sciences/Reactive fluid environment |
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| Cooling – Cooling systems – Heat flux – Heat transfer – Hydraulics – Jet aircraft – Mass transfer – Numerical analysis – Active cooling – Fluid temperature profiles – Mass flow rate – Velocity evolutions – Hypersonic aerodynamics |
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| hal-00641635, version 1 | |
| http://hal.archives-ouvertes.fr/hal-00641635 | |
| oai:hal.archives-ouvertes.fr:hal-00641635 | |
| From: Nicolas Gascoin | |
| Submitted on: Thursday, 17 November 2011 14:11:42 | |
| Updated on: Tuesday, 27 December 2011 15:36:50 | |
