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Combustion Science and Technology Volume 192, 2020 - Issue 7: Frontiers of Fluid and Thermal Sciences in Aerospace Engineering: In Celebration of 60 Years of Scholarly Contributions by Professor William A. Sirignano
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Research Article

Nitrogen Oxide Emissions from Premixed Reacting Jets in a Vitiated Crossflow

M. D. Sirignano@ School of Aerospace Engineering, Georgia Institute of Technology, Atlanta, Georgia, USACorrespondence[email protected]
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V. NairView further author information
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B. L. EmersonView further author information
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J. SeitzmanView further author information
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T. C. LieuwenView further author information
Pages 1389-1419 | Received 30 Aug 2019, Accepted 24 Mar 2020, Published online: 07 May 2020

References

  • Ahrens, D., M. Kolb, C. Hirsch, and T. Sattelmayer. 2014. NOx formation in a reacting premixed jet in hot cross flow. Turbo expo. In Volume 4B: Combustion, fuels and emissions, 26139. Düsseldorf, Germany: ASME.
  • Ahrens, D., M. Kolb, C. Hirsch, and T. Sattelmayer. 2016. Influence of preflame and postflame mixing on NOx formation in a reacting premixed jet in hot cross flow. J Eng Gas Turbines Power 138 (8):1–10. doi:10.1115/1.4032420.
  • Amato, A., J. Seitzman, and T. Lieuwen. 2013. Emissions from oxyfueled or high-exhaust gas recirculation turbines. In Gas turbine emissions, ed. T. C. Lieuwen and V. Yang. Cambridge: Cambridge University Press.
  • Bandaru, R. V., and S. R. Turns. 2000. Turbulent jet flames in a crossflow: Effects of some jet, crossflow, and pilot-flame parameters on emissions. Combust Flame 121 (1–2):137–51. doi:10.1016/S0010-2180(99)00166-2.
  • Becker, H., and S. Yamazaki. 1978. Entrainment, momentum flux and temperature in vertical free turbulent diffusion flames. Combust Flame 33:123–49. doi:10.1016/0010-2180(78)90055-X.
  • Bowman, C. T. 1992. Control of combustion-generated nitrogen oxide emissions: Technology driven by regulation. Symposium (International) on Combustion, 24, 859–78.
  • Cengel, Y. A. C., and M. John. 2006. Fluid mechanics fundamentals and applications. New York: McGrawHill.
  • Cortelezzi, L., and A. R. Karagozian. 2001. On the formation of the counter-rotating vortex pair in transverse jets. J Fluid Mech 446:347–73. doi:10.1017/S0022112001005894.
  • Davitian, J. 2008. Exploration and controlled excitation of transverse jet shear layer instabilities. Los Angeles: University of California.
  • Dean, A. M., and J. W. Bozelli. 2000. Combustion chemistry of nitrogen. In Gas-phase combustion chemistry, ed. W. C. Gardiner. New York: Springer-Verlag.
  • Gevorkyan, L., T. Shoji, D. R. Getsinger, O. I. Smith, and A. R. Karagozian. 2016. Transverse jet mixing characteristics. J Fluid Mech 790:237–74. doi:10.1017/jfm.2016.5.
  • Goh, E., M. Sirignano, J. LI, V. Nair, B. Emerson, T. Lieuwen, and J. Seitzman. 2019. Prediction of minimum achievable NOx levels for fuel-staged combustors. Combust Flame 200:276–85. doi:10.1016/j.combustflame.2018.11.027.
  • Goh, E., M. Sirignano, V. Nair, B. Emerson, T. Lieuwen, and J. Seitzman. 2017. Modeling of minimum NOx in staged-combustion architectures at elevated temperatures. Turbo expo. In Volume 4A: Combustion, fuels and emissions, 63787. Charlotte, NC, USA: ASME.
  • Gokulakrishnan, P., and M. S. Klassen. 2013. NOx and CO formation and control. In Gas turbine emissions, ed. T. C. Lieuwen and V. Yang. Cambridge: Cambridge University Press.
  • Han, D., and M. G. Mungal. 2003. Simultaneous measurements of velocity and CH distribution. Part II: Deflected jet flames. Combust Flame 133 (1–2):1–17. doi:10.1016/S0010-2180(02)00551-5.
  • Han, D., M. G. Mungal, V. M. Zamansky, and T. J. Tyson. 1999. Prediction of NOx control by basic and advanced gas reburning using the Two-Stage Lagrangian model. Combust Flame 119 (4):483–93. doi:10.1016/S0010-2180(99)00069-3.
  • Hasselbrink, E. F., and M. G. Mungal. 2001a. Transverse jets and jet flames. Part 1. Scaling laws for strong transverse jets. J Fluid Mech 443:1–25. doi:10.1017/S0022112001005146.
  • Hasselbrink, E. F., and M. G. Mungal. 2001b. Transverse jets and jet flames. Part 2. Velocity and OH field imaging. J Fluid Mech 443:27–68. doi:10.1017/S0022112001005158.
  • Karagozian, A. R. 2010. Transverse jets and their control. Prog Energy Combust Sci 36 (5):531–53. doi:10.1016/j.pecs.2010.01.001.
  • Kelso, R. M., T. T. Lim, and A. E. Perry. 1996. An experimental study of round jets in cross-flow. J Fluid Mech 306:111–44. doi:10.1017/S0022112096001255.
  • Kolb, M., D. Ahrens, C. Hirsch, and T. Sattelmayer. 2016. A model for predicting the lift-off height of premixed jets in vitiated cross flow. J Eng Gas Turbines Power 138 (8):1–9. doi:10.1115/1.4032421.
  • Lieuwen, T., M. Chang, and A. Amato. 2013. Stationary gas turbine combustion: Technology needs and policy considerations. Combust Flame 160 (8):1311–14. doi:10.1016/j.combustflame.2013.05.001.
  • Lyle, K. H., L. K. Tseng, J. P. Gore, and N. M. Laurendeau. 1999. A study of pollutant emission characteristics of partially premixed turbulent jet flames. Combust Flame 116 (4):627–39. doi:10.1016/S0010-2180(98)00068-6.
  • M’Closkey, R. T., J. M. King, L. Cortelezzi, and A. R. Karagozian. 2002. The actively controlled jet in crossflow. J Fluid Mech 452:325–35. doi:10.1017/S0022112001006589.
  • McKinney, R. G., and J. B. Hoke. 2013. Aero gas turbine combustion: Metrics, constraints, and systems interactions. In Gas turbine emissions, ed. T. C. Lieuwen and V. Yang. Cambridge: Cambridge University Press.
  • Megerian, S., J. Davitian, B. De, L. S. Alves, and A. R. Karagozian. 2007. Transverse-jet shear-layer instabilities. Part 1. Experimental studies. J Fluid Mech 593:93–129. doi:10.1017/S0022112007008385.
  • Muñiz, L., and M. G. Mungal. 2001. Effects of heat release and buoyancy on flow structure and entrainment in turbulent nonpremixed flames. Combust Flame 126 (1–2):1402–20. doi:10.1016/S0010-2180(01)00253-X.
  • Nair, V., M. Sirignano, B. Emerson, B. Halls, N. Jiang, J. Felver, S. Roy, J. Gord, and T. Lieuwen 2019a. Counter rotating vortex pair structure in a reacting jet in crossflow. Proceedings of the Combustion Institute, 37, 1489–96.
  • Nair, V., B. Wilde, B. Emerson, and T. Lieuwen 2019b. Shear layer dynamics in a reacting jet in crossflow. Proceedings of the Combustion Institute, 37, 5173–80.
  • New, T. H., T. T. Lim, and S. C. Luo. 2006. Effects of jet velocity profiles on a round jet in cross-flow. Exp Fluids 40 (6):859–75. doi:10.1007/s00348-006-0124-y.
  • Prathap, C., F. C. C. Galeazzo, P. Kasabov, P. Habisreuther, N. Zarzalis, C. Beck, W. Krebs, and B. Wegner. 2012. Analysis of NOX formation in an axially staged combustion system at elevated pressure conditions. J Eng Gas Turbines Power 134 (3):1–8. doi:10.1115/1.4004720.
  • Roa, M., W. G. Lamont, S. E. Meyer, P. Szedlacsek, and R. P. Lucht. 2012. Emission measurements and OH-PLIF of reacting hydrogen jets in vitiated crossflow for stationary gas turbines. Turbo expo. In Volume 2: Combustion, fuels and emissions, parts A and B, 68711. Copenhagen, Denmark: ASME.
  • Schmitt, D., M. Kolb, J. Weinzierl, C. Hirsch, and T. Sattelmayer. 2013. Ignition and flame stabilization of a premixed jet in hot cross flow. Turbo expo. In Volume 1A: Combustion, fuels and emissions, 94763. San Antonio, Texas, USA: ASME.
  • Schulz, O., and N. Noiray. 2018. Large eddy simulation of a premixed flame in hot vitiated crossflow with analytically reduced chemistry. J Eng Gas Turbines Power 141:1–7.
  • Shapiro, S. R., J. King, R. T. M’Closkey, and A. R. Karagozian. 2006. Optimization of controlled jets in crossflow. Aiaa J 44 (6):1292–98. doi:10.2514/1.19457.
  • Sirignano, M. D., V. Nair, B. Emerson, J. Seitzman, and T. C. Lieuwen 2019. Nitrogen oxide emissions from rich premixed reacting jets in a vitiated crossflow. Proceedings of the Combustion Institute, 37, 5393–400.
  • Smith, S. H., and M. G. Mungal. 1998. Mixing, structure and scaling of the jet in crossflow. J Fluid Mech 357:83–122. doi:10.1017/S0022112097007891.
  • Steinberg, A. M., R. Sadanandan, C. Dem, P. Kutne, and W. Meier 2013. Structure and stabilization of hydrogen jet flames in cross-flows. Proceedings of the Combustion Institute.
  • Sullivan, R., B. Wilde, D. R. Noble, J. M. Seitzman, and T. C. Lieuwen. 2014. Time-averaged characteristics of a reacting fuel jet in vitiated cross-flow. Combust Flame 161 (7):1792–803. doi:10.1016/j.combustflame.2013.12.022.
  • Wagner, J. A., S. W. Grib, M. W. Renfro, and B. M. Cetegen. 2015. Flowfield measurements and flame stabilization of a premixed reacting jet in vitiated crossflow. Combust Flame 162 (10):3711–27. doi:10.1016/j.combustflame.2015.07.010.
  • Wagner, J. A., M. W. Renfro, and B. M. Cetegen. 2017. Premixed jet flame behavior in a hot vitiated crossflow of lean combustion products. Combust Flame 176:521–33. doi:10.1016/j.combustflame.2016.11.014.

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