Citations (67)
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Arnaud Mura, Vincent Robin, Kim Q.N. Kha & Michel Champion. (2023) On the evolution of the scalar flux through a planar premixed turbulent flame brush. Combustion Science and Technology 195:15, pages 3753-3784.
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Arun Ravi Varma, Umair Ahmed & Nilanjan Chakraborty. (2022) Effects of buoyancy on turbulent scalar flux closure for turbulent premixed flames in the context of Reynolds Averaged Navier–Stokes simulations. Combustion Theory and Modelling 26:4, pages 686-711.
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Markus Klein, Christian Kasten, Nilanjan Chakraborty, Nurzhan Mukhadiyev & Hong G. Im. (2018) Turbulent scalar fluxes in H2-air premixed flames at low and high Karlovitz numbers. Combustion Theory and Modelling 22:6, pages 1033-1048.
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Andrei N. Lipatnikov, Jerzy Chomiak, Vladimir A. Sabelnikov, Shinnosuke Nishiki & Tatsuya Hasegawa. (2018) A DNS study of the physical mechanisms associated with density ratio influence on turbulent burning velocity in premixed flames. Combustion Theory and Modelling 22:1, pages 131-155.
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Jiawei Lai, Dana Alwazzan & Nilanjan Chakraborty. (2017) Turbulent scalar flux transport in head-on quenching of turbulent premixed flames: a direct numerical simulations approach to assess models for Reynolds averaged Navier Stokes simulations. Journal of Turbulence 18:11, pages 1033-1066.
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Lu Tian & Rune Peter Lindstedt. (2017) The impact of dilatation, scrambling, and pressure transport in turbulent premixed flames. Combustion Theory and Modelling 21:6, pages 1114-1147.
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Andrei Nikolaevich Lipatnikov, Vladimir Anatolievich Sabelnikov, Shinnosuke Nishiki & Tatsuya Hasegawa. (2017) Flamelet perturbations and flame surface density transport in weakly turbulent premixed combustion. Combustion Theory and Modelling 21:2, pages 205-227.
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Usman Allauddin, Markus Klein, Michael Pfitzner & Nilanjan Chakraborty. (2017) A priori and a posteriori analyses of algebraic flame surface density modeling in the context of Large Eddy Simulation of turbulent premixed combustion. Numerical Heat Transfer, Part A: Applications 71:2, pages 153-171.
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Hemanth Kolla, Xin-Yu Zhao, Jacqueline H. Chen & N. Swaminathan. (2016) Velocity and Reactive Scalar Dissipation Spectra in Turbulent Premixed Flames. Combustion Science and Technology 188:9, pages 1424-1439.
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Nilanjan Chakraborty & R.S. Cant. (2015) Effects of Turbulent Reynolds Number on Turbulent Scalar Flux Modeling in Premixed Flames Using Reynolds-Averaged Navier–Stokes Simulations. Numerical Heat Transfer, Part A: Applications 67:11, pages 1187-1207.
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Andrei Nikolaevich Lipatnikov, Shinnosuke Nishiki & Tatsuya Hasegawa. (2015) DNS assessment of relation between mean reaction and scalar dissipation rates in the flamelet regime of premixed turbulent combustion. Combustion Theory and Modelling 19:3, pages 309-328.
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SeanP. Malkeson & Nilanjan Chakraborty. (2012)
A Priori DNS Modeling of the Turbulent Scalar Fluxes for Low Damköhler Number Stratified Flames. Combustion Science and Technology 184:10-11, pages 1680-1707.
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Vincent Robin, Arnaud Mura & Michel Champion. (2012) Algebraic Models for Turbulent Transports in Premixed Flames. Combustion Science and Technology 184:10-11, pages 1718-1742.
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Vincent Robin, Arnaud Mura, Michel Champion & Tatsuya Hasegawa. (2010) Modeling the Effects of Thermal Expansion on Scalar Turbulent Fluxes in Turbulent Premixed Flames. Combustion Science and Technology 182:4-6, pages 449-464.
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Nilanjan Chakraborty & R. S. Cant. (2009) Physical Insight and Modelling for Lewis Number Effects on Turbulent Heat and Mass Transport in Turbulent Premixed Flames. Numerical Heat Transfer, Part A: Applications 55:8, pages 762-779.
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Arnaud Mura, Kazuya Tsuboi & Tatsuya Hasegawa. (2008) Modelling of the correlation between velocity and reactive scalar gradients in turbulent premixed flames based on DNS data. Combustion Theory and Modelling 12:4, pages 671-698.
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Vincent Robin, Arnaud Mura, Michel Champion & Tatsuya Hasegawa. (2008) A New Analysis of the Modeling of Pressure Fluctuations Effects in Premixed Turbulent Flames and its Validation Based on DNS Data. Combustion Science and Technology 180:5, pages 997-1010.
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Articles from other publishers (50)
Daniel Martinez-Sanchis, Sagnik Banik, Andrej Sternin, Daniel Sternin, Oskar Haidn & Martin Tajmar. (2022) Analysis of turbulence generation and dissipation in shear layers of methane–oxygen diffusion flames using direct numerical simulations. Physics of Fluids 34:4.
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Qiyan Zhou, Tommaso Lucchini, Gianluca D'Errico, Ricardo Novella, Jose M Garcia-Oliver & Xingcai Lu. (2021) CFD Modeling of Reacting Diesel Sprays with Primary Reference Fuel. SAE International Journal of Advances and Current Practices in Mobility 3:5, pages 2433-2451.
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A. N. Lipatnikov, V. A. Sabelnikov, N. V. Nikitin, S. Nishiki & T. Hasegawa. (2020) Influence of Thermal Expansion on Potential and Rotational Components of Turbulent Velocity Field Within and Upstream of Premixed Flame Brush. Flow, Turbulence and Combustion 106:4, pages 1111-1124.
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V. A. Sabelnikov, A. N. Lipatnikov, S. Nishiki, H. L. Dave, F. E. Hernández Pérez, W. Song & Hong G. Im. (2021) Dissipation and dilatation rates in premixed turbulent flames. Physics of Fluids 33:3.
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Vladimir A. Sabelnikov, Andrei N. Lipatnikov, Nikolay Nikitin, Shinnosuke Nishiki & Tatsuya Hasegawa. (2021) Application of Helmholtz-Hodge decomposition and conditioned structure functions to exploring influence of premixed combustion on turbulence upstream of the flame. Proceedings of the Combustion Institute 38:2, pages 3077-3085.
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V. A. Sabelnikov, A. N. Lipatnikov, S. Nishiki & T. Hasegawa. (2019) Investigation of the influence of combustion-induced thermal expansion on two-point turbulence statistics using conditioned structure functions. Journal of Fluid Mechanics 867, pages 45-76.
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A. N. Lipatnikov, V. A. Sabelnikov, S. Nishiki & T. Hasegawa. (2019) A direct numerical simulation study of the influence of flame-generated vorticity on reaction-zone-surface area in weakly turbulent premixed combustion. Physics of Fluids 31:5.
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