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International journal for numerical methods in fluids, v.76 no.6, 2014년, pp.331 - 365
Dahmen, W. (Institut fü) , Gotzen, T. (r Geometrie und Praktische Mathematik, RWTH Aachen University, Templergraben 55, 52056 Aachen, Germany) , Müller, S. (Institut fü) , Rom, M. (r Geometrie und Praktische Mathematik, RWTH Aachen University, Templergraben 55, 52056 Aachen, Germany)
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SUMMARYTranspiration cooling using ceramic matrix composite materials is an innovative concept for cooling rocket thrust chambers. The coolant (air) is driven through the porous material by a pressure difference between the coolant reservoir and the turbulent hot gas flow. The effectiveness of such ...
Tramecourt N , Masquelet M , Menon S . Large‐eddy simulation of unsteady wall heat transfer in a high pressure combustion chamber . 41st AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit , Tucson, Arizona , 2005 ; 1 – 17 .
Herbertz A . Numerische Leistungsanalyse von Triebwerksauslegungen mit transpirativ gekühlter keramischer Raketenbrennkammer . Deutscher Luft‐ und Raumfahrtkongress , November 17–20, 2003, Munich, Germany, Report No. 2003‐103.
Greuel D , Herbertz A , Haidn J , Ortelt M , Hald H . Transpiration cooling applied to C/C liners of cryogenic liquid rocket engines . 40th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit , July 11–14, 2004 , Fort Lauderdale, Florida. AIAA 2004–3682.
Langener T , von Wolfersdorf J , Steelant J . Experimental investigations on transpiration cooling for scramjet applications using different coolants . AIAA Journal 2011 ; 49 ( 7 ): 1409 – 1419 .
Selzer M , Langener T , Hald H , von Wolfersdorf J . Production and characterization of porous C/C material . In Annual Report SFB TRR40 2009 , Adams NA , Radespiel R , Sattelmayer T , Schröder W , Weigand B (eds)., 2009 ; 75 – 85 , Lehrstuhl für Aerodynamik und Strömungsmechanik, TU Munich, Germany.
Langener T . A Contribution to Transpiration Cooling for Aerospace Applications Using CMC Walls . Diss. Univ. : Stuttgart , 2011 .
Glass DE , Diley AD , Kelly HN . Numerical Analysis of Convection/Transpiration Cooling, NASA TM‐1999‐209828 . NASA Langley Research Center : Hampton, VA , 1999 .
Tully LR . Numerical investigations of transpiration cooled rocket injectors . Master Thesis , University of Florida, 2005 .
Mathelin L , Bataille F , Lallemand A . Blowing models for cooling surfaces . International Journal of Thermal Sciences 2001 ; 40 : 969 – 980 .
Langener T , von Wolfersdorf J , Cheuret F , Steelant J , Kuhn M . Experimental and numerical study on transpiration cooling with supersonic flow . 19th ISABE Conference , Montréal, Canada , 2009 , ISBN 9781600867361.
Cheuret F , Steelant J , Langener T , von Wolfersdorf J . Simulations on transpiration cooling for supersonic flow . Proceedings of the CEAS 2009 European Air and Space Conference , Manchester, UK , 2009 .
Steelant J . ATLLAS: Aero‐thermal loaded material investigations for high‐speed vehicles . 15th AIAA International Space Planes and Hypersonic Systems and Technologies Conference , Dayton, OH , 2008 . AIAA‐2008‐2582.
Gascoin N , Romagnosi L , Fedioun I , Fau G , Gillard P , Steelant J . Pyrolysis in porous media: numerical analysis and comparison to experiments . 18th AIAA/3AF International Space Planes and Hypersonic Systems and Technologies Conference , Tours, France , September 24–28, 2012 , AIAA 2012‐5848.
Romagnosi L , Gascoin N , El‐Tabach E , Strozzi C , Fedioun I , Steelant J . Pyrolysis in porous media: numerical model and parametric study . 18th AIAA/3AF International Space Planes and Hypersonic Systems and Technologies Conference , Tours, France , September 24–28, 2012 , AIAA 2012‐5876.
Hannemann V . Numerical investigation of an effusion cooled thermal protection material . Proceedings of the Fourth International Conference on Computational Fluid Dynamics, ICCFD , Ghent, Belgium. 10–14 July 2006, in Computational Fluid Dynamics 2006, 671–676, 2009.
Bangerth W , Hartmann R , Kanschat G . deal.II ‐ a general‐purpose object‐oriented finite element library . ACM Transactions on Mathematical Software 2007 ; 33 ( 4 ): 24/1 – 24/27 .
Nield DA , Bejan A . Convection in Porous Media ( 3rd edn ). Springer : USA , 2006 .
L'Ecuyer MR , Colladay RS . Influence of porous‐wall thermal effectiveness on turbulent‐boundary‐layer heat transfer . Technical Report NASA Technical Note D‐6837 , 1972 .
Hughes TJR . The Finite Element Method: Linear Static and Dynamic Finite Element Analysis . Dover Publications , 2000 .
Fries TP , Matthies HG . A review of Petrov–Galerkin stabilization approaches and an extension to meshfree methods : Informatikbericht‐Nr. 2004‐01, Technische Universität Braunschweig: Brunswick, Germany, 2004 .
Elman H , Silvester D , Wathen A . Finite Elements and Fast Iterative Solvers: With Applications in Incompressible Fluid Dynamics . Oxford University Press , Oxford, UK , 2005 .
Davis TA , Duff IS . An unsymmetric‐pattern multifrontal method for sparse LU factorization . SIAM Journal on Matrix Analysis and Applications 1997 ; 18 ( 1 ): 140 – 158 .
Davis TA . A column pre‐ordering strategy for the unsymmetric‐pattern multifrontal method . ACM Transactions on Mathematical Software 2004 ; 30 ( 2 ): 165 – 195 .
Menter FR . Two‐equation eddy‐viscosity turbulence models for engineering applications . AIAA Journal 1994 ; 32 : 1598 – 1605 .
Bramkamp F , Lamby Ph , Müller S . An adaptive multiscale finite volume solver for unsteady and steady state flow computations . Journal of Computational Physics 2004 ; 197 ( 2 ): 460 – 490 .
Müller S . Adaptive Multiscale Schemes for Conservation Laws ( 1st edn ). Lecture Notes on Computational Science and Engineering , vol. 27. Springer, Verlag , 2003 . Berlin Heidelberg, Germany .
Lamby Ph . Parametric multi‐block grid generation and application to adaptive flow simulations , 2007 . Diss. RWTH Aachen.
Bachmann M , Brix K , Melian S , Müller S . Adaptive multiresolution methods: practical issues on data structures, implementation and parallelization . In Summer School on Multiresolution and Adaptive Mesh Refinement Methods, ESAIM: Proceedings , Vol. 34, Cancès E , Louvet V , Massot M (eds)., 2011 ; 151 – 183 , EDP Sciences, Les Ulis Cedex A.
Langener T , von Wolfersdorf J , Selzer M , Hald H . Experimental investigations of transpiration cooling applied to C/C material . International Journal of Thermal Sciences 2012 ; 54 : 70 – 81 .
Dahmen W , Gotzen T , Melian S , Müller S . Numerical simulation of cooling gas injection using adaptive multiresolution techniques . Computers and Fluids 2013 ; 71 : 65 – 82 .
Gotzen T . Numerical investigation of film and transpiration cooling , 2013 . Diss. RWTH Aachen.
Windisch Ch , Reinartz B , Müller S . Numerical simulation of coolant variation in laminar supersonic film cooling . 50th AIAA Aerospace Sciences Meeting , Nashville, Tennessee , January 9–12, 2012 . AIAA‐2012–949.
Dahmen W , Gerber V , Gotzen T , Müller S , Rom M , Windisch Ch . Numerical simulation of transpiration cooling with a mixture of thermally‐perfect gases . In Annual Report SFB TRR40 2013, München , Stemmer C , Adams NA , Haidn OJ , Radespiel R , Sattelmayer T , Schröder W , Weigand B (eds)., 2013 ; 1 – 20 .
Wilcox DC . Turbulence Modeling for CFD ( 3rd edn ). DCW Industries Inc. , 2006 , Los Angeles, California.
Jäger W , Mikelic A . On the roughness‐induced effective boundary conditions for a viscous flow . Journal of Differential Equations 2001 ; 170 : 96 – 122 .
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