SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Referencias del artículo

VALERA-MEDINA, A; SYRED, N  y  ABDULSADA, M. Análisis de reflujo de flama en combustores tangenciales de flujo giratorio. Ing. invest. y tecnol. [online]. 2011, vol.12, n.4, pp.487-497. ISSN 1405-7743.

    Dhanuka S.K., Temme J.E., Driscoll J.F., Mongia H.C. Vortex–Shedding and Mixing Layer Effects on Periodic Flashback in a Lean Premixed Prevaporized Gas Turbine Combustor. Proceedings of the Combustion Institute, 32(2):2901–2908, 2009. [ Links ]

    Grummer J., Harris M.E., Schultz H. Flame Stabilization on Burners with Short Ports or Noncircular Ports, Proc. 4th Int. Symposium on Combustion, Baltimore, pp. 695–701, 1953. [ Links ]

    Gupta A.K., Lilley D.J., Syred N. Swirl Flows, Abacus Press, Tunbridge Wells, Kent, 1984, UK. [ Links ]

    Kroner M., Frite J., Sattelmayer T. Flashback Limits for Combustion Induced Vortex Breakdown in a Swirl Burner. Journal of Engineering for Gas Turbines and Power, 125: 93–700, 2003. [ Links ]

    Lefebvre A.H. Gas Turbine Combustion, 2a ed., Taylor & Francis Group, New York, 1999, USA. [ Links ]

    Lewis B., Von–Elbe G. Combustion, Flames and Explosions. 3a ed., Academic press, London, 1987, UK. [ Links ]

    Lieuwen T., Mcdonnell V., Santavicca D., Sattelmayer T. Burner Development and Operability issues Associated with Steady Flowing Syngas Fired Combustors. Combustion Science and Technology, 180(6):1169–1192, 2008. [ Links ]

    Nauert A., Petersson P., Linne M., Dreizler A. Experimental Analysis of Flashback in Lean Premixed Swirling Flames, Conditions Close to flashback. Experiments in Fluids, 43:89–100, 2007. [ Links ]

    Plee S.L., Mellor A.M. Review of Flashback Reported in Prevaporizing/Premixing Combustors. Combustion and Flame, 32:193–203, 1978. [ Links ]

    Sarpkaya T. On Stationary and Travelling Vortex Breakdown. J. Fluid mechanics, 45(3):545–559, 1971. [ Links ]

    Shelil N., Griffiths A., Bagdanavicius A., Syred N. Flashback Limits of Premixed H2/CH4 Flames in a Swirl Stabilized Combustor, ASME Turbo Expo, Glasgow, UK, June 20, ref. GT2010–23270. 2010. [ Links ]

    Subramanya M., Choudhuri A. Investigation of Combustion Instability Effects on the Flame Characteristic of Fuel Blends, 5th International Energy Conversion Engineering Conference and Exhibit (IECEC), ref. AIAA 2007–4796, 2007. [ Links ]

    Syred N.A Review of Oscillation Mechanisms and the Role of the Precessing Vortex Core (PVC) in Swirl Combustion Systems. Progress in Energy and Combustion Systems, 32(2):93–161, 2006. [ Links ]

    Thornton J., Chorpening T., Sidwell T., Strakey P., Huckaby E., Benson K. Flashback Detection Sensor for Hydrogen Augmented Natural Gas Combustion, Proceedings of GT2007, ASME Turbo Expo, ref. GT2007–27865, 2007. [ Links ]

    Valera–Medina A. Coherent Structures and their Effects on Processes occurring in Swirl Combustors (PhD Thesis), Cardiff University, Wales, 2009, UK. [ Links ]

    Valera–Medina A., Syred N., Griffiths A. Studies of Large Coherent Structures and Their Effects on Swirl Combustion. 48th International AIAA Meeting and Exposition, ref. AIAA–2010–1168, 2010. [ Links ]

    Valera–Medina A., Syred N., Griffiths A. Visualization of Isothermal Large Coherent Structures in a Swirl Burner. Combustion and Flame, 156(9):1723–1734, 2009. [ Links ]

    Valera–Medina A., Syred N., Griffiths A. Central Recirculation Zone Analysis in a Tangential Swirl Burner, artículo submitido. Experiments in Fluids, junio de 2010. [ Links ]

    Wilcox. Turbulence Modeling for CFD, DCW Industries, Inc., La Canada, California, 1998, USA. [ Links ]

    Zimont V., Polifke W., Bettelini M., Weisenstein W. An Efficient Computational Model for Premixed Turbulent Combustion at High Reynolds Number Based on a Turbulent Flame Speed Closure. Journal of Gas Turbines Power, 120:526–532, 1998. [ Links ]