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Journal of Combustion
Volume 2012, Article ID 794671, 17 pages
http://dx.doi.org/10.1155/2012/794671
Research Article

A Priori Assessment of Algebraic Flame Surface Density Models in the Context of Large Eddy Simulation for Nonunity Lewis Number Flames in the Thin Reaction Zones Regime

1School of Mechanical and Systems Engineering, Newcastle University, Claremont Road, Newcastle upon Tyne NE1 7RU, UK
2Engineering Department, Cambridge University, Trumpington Street, Cambridge CB2 1PZ, UK

Received 21 March 2012; Accepted 24 June 2012

Academic Editor: Andrei N. Lipatnikov

Copyright © 2012 Mohit Katragadda et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Citations to this Article [12 citations]

The following is the list of published articles that have cited the current article.

  • Mohit Katragadda, Nilanjan Chakraborty, and R. S. Cant, “Effects of Turbulent Reynolds Number on the Performance of Algebraic Flame Surface Density Models for Large Eddy Simulation in the Thin Reaction Zones Regime: A Direct Numerical Simulation Analysis,” Journal of Combustion, vol. 2012, pp. 1–13, 2012. View at Publisher · View at Google Scholar
  • T. Ma, N. Chakraborty, A. M. Kempf, and O. T. Stein, “A posteriori testing of algebraic flame surface density models for LES,” Combustion Theory And Modelling, vol. 17, no. 3, pp. 431–482, 2013. View at Publisher · View at Google Scholar
  • Mohit Katragadda, Yuan Gao, and Nilanjan Chakraborty, “Modeling of the Strain Rate Contribution to the Flame Surface Density Transport for Non-Unity Lewis Number Flames in Large Eddy Simulations,” Combustion Science and Technology, vol. 186, no. 10-11, pp. 1338–1369, 2014. View at Publisher · View at Google Scholar
  • Terence Ma, Yuan Gao, Andreas M. Kempf, and Nilanjan Chakraborty, “Validation and implementation of algebraic LES modelling of scalar dissipation rate for reaction rate closure in turbulent premixed combustion,” Combustion and Flame, vol. 161, no. 12, pp. 3134–3153, 2014. View at Publisher · View at Google Scholar
  • T. Ma, O. T. Stein, N. Chakraborty, and A. M. Kempf, “A posteriori testing of the flame surface density transport equation for LES,” Combustion Theory and Modelling, vol. 18, no. 1, pp. 32–64, 2014. View at Publisher · View at Google Scholar
  • Y. Gao, N. Chakraborty, and N. Swaminathan, “Dynamic Closure of Scalar Dissipation Rate for Large Eddy Simulations of Turbulent Premixed Combustion: A Direct Numerical Simulations Analysis,” Flow, Turbulence and Combustion, 2015. View at Publisher · View at Google Scholar
  • Minamoto, Gao, Tanahashi, and Chakraborty, “A Priori Assessment of Scalar Dissipation Rate Closure for Large Eddy Simulations of Turbulent Premixed Combustion Using a Detailed Chemistry Direct Numerical Simulation Database,” Combustion Science and Technology, vol. 188, no. 9, pp. 1398–1423, 2016. View at Publisher · View at Google Scholar
  • M. Klein, N. Chakraborty, and M. Pfitzner, “Analysis of the Combined Modelling of Sub-grid Transport and Filtered Flame Propagation for Premixed Turbulent Combustion,” Flow, Turbulence and Combustion, vol. 96, no. 4, pp. 921–938, 2016. View at Publisher · View at Google Scholar
  • Klein, Kasten, and Chakraborty, “A-priori Direct Numerical Simulation assessment of models for generalized sub-grid scale turbulent kinetic energy in turbulent premixed flames,” Computers and Fluids, vol. 154, pp. 123–131, 2017. View at Publisher · View at Google Scholar
  • Jiawei Lai, Nilanjan Chakraborty, and Markus Klein, “Assessment of Algebraic Flame Surface Density Closures in the Context of Large Eddy Simulations of Head-On Quenching of Turbulent Premixed Flames,” Combustion Science and Technology, vol. 189, no. 11, pp. 1966–1991, 2017. View at Publisher · View at Google Scholar
  • Cesar Dopazo, Luis Cifuentes, Dana Alwazzan, and Nilanjan Chakraborty, “Influence of the Lewis Number on Effective Strain Rates in Weakly Turbulent Premixed Combustion,” Combustion Science and Technology, pp. 1–24, 2017. View at Publisher · View at Google Scholar
  • M. Ghaderi Masouleh, K. Keskinen, O. Kaario, H. Kahila, S. Karimkashi, and V. Vuorinen, “Modeling cycle-to-cycle variations in spark ignited combustion engines by scale-resolving simulations for different engine speeds,” Applied Energy, vol. 250, pp. 801–820, 2019. View at Publisher · View at Google Scholar