Laminar natural convection of power-law fluids in a square enclosure with differentially heated side walls subjected to constant temperatures O Turan, A Sachdeva, N Chakraborty, RJ Poole Journal of Non-Newtonian Fluid Mechanics 166 (17-18), 1049-1063, 2011 | 238 | 2011 |

Unsteady effects of strain rate and curvature on turbulent premixed flames in an inflow–outflow configuration N Chakraborty, S Cant Combustion and flame 137 (1-2), 129-147, 2004 | 228 | 2004 |

Influence of the Damköhler number on turbulence-scalar interaction in premixed flames. I. Physical insight N Chakraborty, N Swaminathan Physics of Fluids 19 (4), 2007 | 227 | 2007 |

Laminar natural convection of Bingham fluids in a square enclosure with differentially heated side walls O Turan, N Chakraborty, RJ Poole Journal of Non-Newtonian Fluid Mechanics 165 (15-16), 901-913, 2010 | 218 | 2010 |

Scalar dissipation rate modeling and its validation H Kolla, JW Rogerson, N Chakraborty, N Swaminathan Combustion Science and Technology 181 (3), 518-535, 2009 | 216 | 2009 |

Influence of Lewis number on curvature effects in turbulent premixed flame propagation in the thin reaction zones regime N Chakraborty, RS Cant Physics of Fluids 17 (10), 2005 | 171 | 2005 |

Effects of turbulence on spark ignition in inhomogeneous mixtures: a direct numerical simulation (DNS) study N CHAKRABORTY*, E Mastorakos, RS Cant Combustion science and technology 179 (1-2), 293-317, 2007 | 136 | 2007 |

Effects of Lewis number on the reactive scalar gradient alignment with local strain rate in turbulent premixed flames N Chakraborty, M Klein, N Swaminathan Proceedings of the Combustion Institute 32 (1), 1409-1417, 2009 | 131 | 2009 |

Effects of strain rate and curvature on surface density function transport in turbulent premixed flames in the thin reaction zones regime N Chakraborty, RS Cant Physics of Fluids 17 (6), 2005 | 131 | 2005 |

Effects of Lewis number on flame surface density transport in turbulent premixed combustion N Chakraborty, RS Cant Combustion and Flame 158 (9), 1768-1787, 2011 | 129 | 2011 |

Scalar dissipation rate modelling for large eddy simulation of turbulent premixed flames TD Dunstan, Y Minamoto, N Chakraborty, N Swaminathan Proceedings of the Combustion Institute 34 (1), 1193-1201, 2013 | 121 | 2013 |

A priori analysis of the curvature and propagation terms of the flame surface density transport equation for large eddy simulation N Chakraborty, RS Cant Physics of Fluids 19 (10), 2007 | 115 | 2007 |

Laminar Rayleigh-Bénard convection of yield stress fluids in a square enclosure O Turan, N Chakraborty, RJ Poole Journal of Non-Newtonian Fluid Mechanics 171, 83-96, 2012 | 114 | 2012 |

A priori direct numerical simulation assessment of algebraic flame surface density models for turbulent premixed flames in the context of large eddy simulation N Chakraborty, M Klein Physics of fluids 20 (8), 2008 | 112 | 2008 |

The effects of strain rate and curvature on surface density function transport in turbulent premixed methane–air and hydrogen–air flames: A comparative study N Chakraborty, ER Hawkes, JH Chen, RS Cant Combustion and Flame 154 (1-2), 259-280, 2008 | 106 | 2008 |

Curvature and wrinkling of premixed flame kernels—comparisons of OH PLIF and DNS data S Gashi, J Hult, KW Jenkins, N Chakraborty, S Cant, CF Kaminski Proceedings of the Combustion Institute 30 (1), 809-817, 2005 | 104 | 2005 |

Influence of the Damköhler number on turbulence-scalar interaction in premixed flames. II. Model development N Chakraborty, N Swaminathan Physics of Fluids 19 (4), 2007 | 103 | 2007 |

Direct numerical simulation analysis of the flame surface density transport equation in the context of large eddy simulation N Chakraborty, RS Cant Proceedings of the Combustion Institute 32 (1), 1445-1453, 2009 | 101 | 2009 |

Direct numerical simulations of turbulent flame expansion in fine sprays AP Wandel, N Chakraborty, E Mastorakos Proceedings of the Combustion Institute 32 (2), 2283-2290, 2009 | 100 | 2009 |

The effects of turbulence on molten pool transport during melting and solidification processes in continuous conduction mode laser welding of copper–nickel dissimilar couple N Chakraborty Applied Thermal Engineering 29 (17-18), 3618-3631, 2009 | 99 | 2009 |