Diseño preliminar de un rotor de onda para motores con microturbina
dc.creator | Pérez B., Gina P. | |
dc.creator | Escobar G., Arnold | |
dc.date | 2009-01-01 | |
dc.date.accessioned | 2021-06-17T12:57:12Z | |
dc.date.available | 2021-06-17T12:57:12Z | |
dc.description | This article shows the benefits of using a wave rotor on small turbo jet engine (J.lT), designed and built at San Buenaventura University [6}. The investigation is focused in a design method that obtains the correct geometry using thermodynamic calculus. CFD (Computational Fluid Dynamics) is used to eyaluate the viability in the engine. The equations for the wave rotor preliminary calculus are found through this paper. The input data for the wave rotor design is supported in basic thermodynamic calculus of the engine without the wave rotor. | eng |
dc.description | Este trabajo presenta un analisis preliminar sobre los beneficios de ia implementacion de un rotor de onda en una micro-turbina convencional. Este estudio se enfoca en la consecución de un punto de disefio por medio de cálculos térmicos para así lograr una geometría adecuada, la cual podra ser evaluada por medio de Dinámica de Flujo Computacional CFD para determinar la viabilidad de la implementacion de este dispositive en un motor con micro-turbina a gas de 30 lb, de empuje. | spa |
dc.format | application/pdf | |
dc.format | text/html | |
dc.identifier | https://publicacionesfac.com/index.php/cienciaypoderaereo/article/view/53 | |
dc.identifier | 10.18667/cienciaypoderaereo.53 | |
dc.identifier.uri | https://hdl.handle.net/20.500.12963/117 | |
dc.language | spa | |
dc.publisher | Escuela de Postgrados de la Fuerza Aérea Colombiana | spa |
dc.relation | https://publicacionesfac.com/index.php/cienciaypoderaereo/article/view/53/52 | |
dc.relation | https://publicacionesfac.com/index.php/cienciaypoderaereo/article/view/53/167 | |
dc.relation | /*ref*/Akbari, P., Muller, N., 2003, "Performance Investigation of Small Gas Turbine Engines Topped with Wave Rotors," AIAA-Paper 2003-4414. https://doi.org/10.2514/6.2003-4414 | |
dc.relation | /*ref*/Akbari, P. , Nalim, R. , Muller, N., "Performance Enhancement of Microturbine Engines Topped With Wave Rotors", Journal of Engineering for Gas Turbines and Power, 128, pp 190-202. https://doi.org/10.1115/1.1924484 | |
dc.relation | /*ref*/Akbari, P. , Mueller, N., 2003, "Performance Improvement of Small Gas Turbines Through Use of Wave Rotor Topping Cycles, "2003 International ASME/IGTI Turbo Exposition, ASM E Paper GT2003-38772 https://doi.org/10.1115/GT2003-38772 | |
dc.relation | /*ref*/Akbari, P., Mueller, N., 2003, "Preliminary Design Procedure for Gas Turbine Topping Reverse-Flow Wave Rotors, "2003 International Gas Turbine Congress, ASME Paper IGTC03-FR-301 | |
dc.relation | /*ref*/Akbari , P. , Mueller, N. , 2003, "Gas Dynamic Design Analyses of Charging Zone for Reverse- Flow Pressure Wave Superchargers, "2003 ASM E Spring Technical Conference , ASME Paper ICES2003-690. https://doi.org/10.1115/ICES2003-0690 | |
dc.relation | /*ref*/Escobar A., Metodo/ogfa de disefio para turborreactores, Universidad de San Buenaventura, Bogota, D. C. | |
dc.relation | /*ref*/Fatsis, A. and Ribaud , Y., 1997, "Numerical Analysis of the Unsteady Flow Inside Wave Rotors Applied to Air Breathing Engines", 13 International Symposium on Airbreathing Engines. | |
dc.relation | /*ref*/Fatsis, A. Lafond and Ribaud, Y., 1998, "Preliminary Analysis of the Flow Inside a Three-Port Wave Rotor by Means of a Numerical Model", Aerospace Science and Technology, Vol. 2, No 5, pp.289-300. https://doi.org/10.1016/S1270-9638(98)80006-0 | |
dc.relation | /*ref*/Fatsis, A. and Ribaud, Y., "Thermodynamic Analysis of Gas Turbines Topped with Wave Rotors," Aerospace Science and Technology, Vol. No.5, pp.293-299, 1999 https://doi.org/10.1016/S1270-9638(00)86965-5 | |
dc.relation | /*ref*/lancu, F., Piechna, J., Dempsey, E., Muller, N. , 2005, "Ultra Micro Wave Rotor Investigations". | |
dc.relation | /*ref*/Meyer, A., 1947, "Recent Developments in Gas Turbines," Journal of Mechanical Engineering, 69, No.4, pp. 273-277. | |
dc.relation | /*ref*/Okamoto K., Nagashima T., 2003, ,A Simple Numerical Approach of Micro Wave Rotor Gasdynamic Design", 16th International Symposium on Airbreathing Engines, Paper ISABE-2003- 1213 | |
dc.relation | /*ref*/Paxson, D., and Lindau, J., 1997, "Numerical Assesment of Four Port through Flow Wave Rotor Cycles with Passages Height Variation ", 33rd joint Propulsion Conference and Exhibit, AIAA97-3142 https://doi.org/10.2514/6.1997-3142 | |
dc.relation | /*ref*/Piechna J., Akbari P., lancu F., and Muller N., 2004, Radial-flow wave rotor concepts, unconventional designs and applications, IMECE2004-59022, Anaheim 2004 | |
dc.relation | /*ref*/Piechna J., 2005, "Wave Machines, Models and Numerical Simulation", Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2005, ISSN 0137-2335 | |
dc.relation | /*ref*/PiechnaJ., Escobar A. , MullerN.2006, "project of a small turbo jet engine topped by the wave machine", Revista INGENIUM Universidad de San Buenaventura Bogota Colombia, ISSN 0124-7492 NUMERO 16 | |
dc.relation | /*ref*/Piechna J.*, Escobar A.**, Muller N.*** | |
dc.relation | /*ref*/Saravanamuttoo, H.I.H; Rogers, G.F.C, and Cohen, H., 2001, "Gas Turbine Theory", pearson Education Limited, England, ISBN 0130-15847-X. | |
dc.relation | /*ref*/Snyder, P. H., Fish, R. E., 1996, "Assessment of a Wave Rotor Topped Demonstrator Gas Turbine Engine Concept,"ASME Paper 96-GT-41. https://doi.org/10.1115/96-GT-041 | |
dc.relation | /*ref*/Spring, P. , Piechna J., and Onder, C. , 2004, Modeling and validation of a pressure-wave supercharger using a finite difference method, IMECE2004-59533, Anaheim 2004 https://doi.org/10.1115/IMECE2004-59533 | |
dc.relation | /*ref*/Taussig, R. T., 1984, ,Wave Rotor Turbofan Engines for Aircraft", Mechanical Engineering, 106, No. 11, pp. 60-68. | |
dc.relation | /*ref*/Taussig, R. T., Hertzberg, A., 1984, , Wave Rotors for Turbomachinery,", Winter Annual Meeting of the ASME, edited by Sladky, J. F., Machinery for Direct Fluid-Fluid Energy Exchange, AD-07, pp. 1-7. | |
dc.relation | /*ref*/Welch, G.E., Jones, S. M. and Paxson, D. E., 1997, "Wave Rotor-Enhanced Gas Turbine Engines", Journal of Engineering for Gas Turbines and Power, 119, No.2, pp 469-477. https://doi.org/10.1115/1.2815598 | |
dc.relation | /*ref*/Wilson, J., Paxson, D. E., 1993, "Jet Engine Performance Enhancement Through Use of a Wave-Rotor Topping Cycle," NASA TM-4486 | |
dc.source | Ciencia y Poder Aéreo; Vol. 4 No. 1 (2009): Enero - Diciembre; 38-41 | eng |
dc.source | Ciencia y Poder Aéreo; Vol. 4 Núm. 1 (2009): Enero - Diciembre; 38-41 | spa |
dc.source | Ciencia y Poder Aéreo; v. 4 n. 1 (2009): Enero - Diciembre; 38-41 | por |
dc.source | 2389-9468 | |
dc.source | 1909-7050 | |
dc.subject | Termodinamica | spa |
dc.subject | cámara de combustion | spa |
dc.subject | rotor de onda | spa |
dc.title | Diseño preliminar de un rotor de onda para motores con microturbina | eng |
dc.title | Diseño preliminar de un rotor de onda para motores con microturbina | spa |
dc.type | info:eu-repo/semantics/article | |
dc.type | info:eu-repo/semantics/publishedVersion |