References
- Agarwal, K.K., Krishna, S., and Ravikrishna, R.V. 2012. Mixing enhancement in a compact trapped vortex combustor. Combustion Sci. Technol., 185(3), 869–877.
- Agarwal, K.K., and Ravikrishna, R.V. 2011. Experimental and numerical studies in a compact trapped vortex combustor: stability assessment and augmentation. Combustion Sci. Technol., 183(12), 1308–1327.
- Ben-Yakar, A., and Hanson, R.K. 2001. Cavity flame-holders for ignition and flame stabilization in Q6 scramjets: an overview. J. Propul. Power, 17(4). July-August.
- Chen, S. 2016. Numerical study of trapped vortex combustors characteristics in small Ramjets. PhD Thesis, Nanyang Technological University.
- Chen, S., Chue, R.S.M., Schlüter, J.U., Nguyen, T.T.Q., and Yu, S.C.M. 2015. Numerical investigation of a trapped vortex miniature Ramjet combustor. J. Propul. Power, 31(3), 872–882.
- Chen, S., Chue, R.S.M., Yu, S.C.M., and Schlüter, J.U. 2016. Spinning effects on a trapped vortex combustor. J. Propul. Power, 32(5), 1133–1145.
- Ezhil Kumar, P.K., and Mishra, D.P. 2011. Numerical simulation of cavity flow structure in an axisymmetric trapped vortex combustor. Aerospace Sci. Technol., 21(1), 16–23.
- Ezhil Kumar, P.K., and Mishra, D.P. 2017. Numerical study of reacting flow characteristics of a 2D twin cavity trapped vortex combustor. Combust. Theory Model., 21(4), 658–676. March.
- Heiser, W.H., and Pratt, D.T. Hypersonic airbreathing propulsion. AIAA, 1997.
- Hsu, K.-Y., Goss, L.P., Trump, D.D., and Roquemore, W.M. Performance of a trapped-vortex combustor. AIAA Paper 95-0810, January 1995.
- Hsu, K.-Y., Goss, L.P., Trump, D.D., and Roquemore, W.M. 1998. Characteristics of a trapped-vortex combustor. J. Propul. Power, 14(1), 57–65. January-February.
- Katta, V.R., and Roquemore, W.M. Numerical studies of trapped-vortex combustor. AIAA Paper 96-2660, July 1996.
- Lefebvre, A.H. 2010. Gas Turbine Combustion: Alternative Fuels and Emissions. Boca Raton, FL: CRC press.
- Little, B.H., and Whipkey, R.R. 1979. Locked vortex afterbodies. J. Aircr., 16(5), 296–302.
- Magnussen, B.F., and Hejertager, B.H. 1976. On mathematical modeling of turbulent combustion with special emphasis on soot formation and combustion. Sympos. (International) Combust., 16(1), 719–729.
- Menter, F.R. 1994. Two-equation eddy-viscosity turbulence models for engineering application. AIAA J., 32(8), 1598–1605. August.
- Merlin, C., Pascale, D., and Luc, V. 2012. Large eddy simulation of turbulent flames in a trapped vortex combustor (TVC)–A flamelet presumed-pdf closure preserving laminar flame speed. Comptes Rendus Mécanique, 340, 917–932.
- Sekar, B., Thornburg, H.J., and Briones, A.M. Effects of trapped vortex combustion with radial vane cavity arrangements on predicted inter-turbine burner performance. AIAA Paper, 2009, 2009–4603.
- Stone, C., and Suresh, M. Simulation of fuel-air mixing and combustion in a trapped-vortex combustor. AIAA Paper 2000-0478, 2000.
- Thornburg, H.J., Briones, A.M., and Sekar, B. Enhanced mixing in trapped vortex combustor with protuberances part 1: single-phase non-reacting flow. AIAA Paper, 2011, 2011–3421.
- Wang, Z.K., Zeng, G.X., Li, K., and Xu, Y.H. 2015. Effect of structure parameters of the flow guide vane on cold flow characteristics in trapped vortex combustor. J. Hydrodynamics., 27(5), 730–737.