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Combustion Science and Technology Volume 182, 2010 - Issue 11-12: The 22nd International Colloquium on the Dynamics of Explosions and Reactive Systems
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Original Articles

Statistical Analysis of Displacement Speed in Turbulent Stratified Flames: A Direct Numerical Simulation Study

Sean P. Malkeson Engineering Department, University of Liverpool, Liverpool, England
&
Nilanjan Chakraborty Engineering Department, University of Liverpool, Liverpool, EnglandCorrespondence[email protected]
Pages 1841-1883 | Received 22 Oct 2009, Accepted 02 Apr 2010, Published online: 27 Oct 2010

Citations (34)

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Read on this site (8)

Khalil Abo-Amsha & Nilanjan Chakraborty. (2023) Surface Density Function and Its Evolution in Homogeneous and Inhomogeneous Mixture n-Heptane MILD Combustion. Combustion Science and Technology 195:7, pages 1483-1508.
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Vassilios Papapostolou, Gulcan Ozel Erol, Charles Turquand d’Auzay & Nilanjan Chakraborty. (2021) A Numerical Investigation of the Minimum Ignition Energy Requirement for Forced Ignition of Turbulent Droplet-laden Mixtures. Combustion Science and Technology 193:2, pages 307-340.
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Gulcan Ozel Erol, Josef Hasslberger, Markus Klein & Nilanjan Chakraborty. (2019) A Direct Numerical Simulation Investigation of Spherically Expanding Flames Propagating in Fuel Droplet-Mists for Different Droplet Diameters and Overall Equivalence Ratios. Combustion Science and Technology 191:5-6, pages 833-867.
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Dipal Patel & Nilanjan Chakraborty. (2016) Effects of Mixture Distribution on Localized Forced Ignition of Stratified Mixtures: A Direct Numerical Simulation Study. Combustion Science and Technology 188:11-12, pages 1904-1924.
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Daniel H. Wacks & Nilanjan Chakraborty. (2016) Statistical Analysis of the Reaction Progress Variable and Mixture Fraction Gradients in Flames Propagating into Droplet Mist: A Direct Numerical Simulation Analysis. Combustion Science and Technology 188:11-12, pages 2149-2177.
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Dipal Patel & Nilanjan Chakraborty. (2014) Localised forced ignition of globally stoichiometric stratified mixtures: A numerical investigation. Combustion Theory and Modelling 18:6, pages 627-651.
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S. Ruan, N. Swaminathan & Y. Mizobuchi. (2014) INVESTIGATION OF FLAME STRETCH IN TURBULENT LIFTED JET FLAME. Combustion Science and Technology 186:3, pages 243-272.
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SeanP. Malkeson, S. Ruan, Nilanjan Chakraborty & N. Swaminathan. (2013) Statistics of Reaction Progress Variable and Mixture Fraction Gradients from DNS of Turbulent Partially Premixed Flames. Combustion Science and Technology 185:9, pages 1329-1359.
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Articles from other publishers (26)

Hazem S.A.M. Awad, Khalil Abo-Amsha & Nilanjan Chakraborty. (2024) A priori direct numerical simulation assessment of MILD combustion modelling in the context of large eddy simulation. Fuel 362, pages 130295.
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Rahul Patil & Sheshadri Sreedhara. (2024) A Detailed Analysis of Mixture Stratification on Flame Displacement Speed for Syngas Combustion. Flow, Turbulence and Combustion 112:4, pages 1105-1126.
Crossref
Khalil Abo-Amsha, Hazem S. A. M. Awad & Nilanjan Chakraborty. (2024) Flame self-interactions in MILD combustion of homogeneous and inhomogeneous mixtures. Scientific Reports 14:1.
Crossref
Vassilios Papapostolou & Nilanjan Chakraborty. (2023) Effects of fuel Lewis number on the minimum ignition energy and its transition for turbulent homogeneous fuel–air mixtures. International Journal of Spray and Combustion Dynamics 15:3, pages 166-182.
Crossref
Peter Brearley, Umair Ahmed & Nilanjan Chakraborty. (2023) Effects of Mixture Distribution on the Structure and Propagation of Turbulent Stratified Slot-Jet Flames. Flow, Turbulence and Combustion 111:3, pages 769-797.
Crossref
Peter Brearley, Umair Ahmed & Nilanjan Chakraborty. (2022) A Priori Direct Numerical Simulation Analysis of the Closure of Cross-Scalar Dissipation Rate of Reaction Progress Variable and Mixture Fraction in Turbulent Stratified Flames. Flow, Turbulence and Combustion 109:2, pages 351-382.
Crossref
E. Inanc, A.M. Kempf & N. Chakraborty. (2022) Scalar gradient and flame propagation statistics of a flame-resolved laboratory-scale turbulent stratified burner simulation. Combustion and Flame 238, pages 111917.
Crossref
Hazem S.A.M. Awad, Khalil Abo-Amsha, Umair Ahmed & Nilanjan Chakraborty. (2021) Comparison of the Reactive Scalar Gradient Evolution between Homogeneous MILD Combustion and Premixed Turbulent Flames. Energies 14:22, pages 7677.
Crossref
Josef Hasslberger, Gulcan Ozel-Erol, Nilanjan Chakraborty, Markus Klein & Stewart Cant. (2021) Physical effects of water droplets interacting with turbulent premixed flames: A Direct Numerical Simulation analysis. Combustion and Flame 229, pages 111404.
Crossref
S. P. Malkeson, U. Ahmed, A. L. Pillai, N. Chakraborty & R. Kurose. (2021) Flame self-interactions in an open turbulent jet spray flame. Physics of Fluids 33:3.
Crossref
S.P. Malkeson, U. Ahmed, C. Turquand d'Auzay, A.L. Pillai, N. Chakraborty & Ryoichi Kurose. (2021) Displacement speed statistics in an open turbulent jet spray flame. Fuel 286, pages 119242.
Crossref
Dipal Patel & Martin Agelin-Chaab. 2021. Direct Numerical Simulations - An Introduction and Applications. Direct Numerical Simulations - An Introduction and Applications.
S. P. Malkeson, U. Ahmed, A. L. Pillai, N. Chakraborty & R. Kurose. (2020) Evolution of Surface Density Function in an Open Turbulent Jet Spray Flame. Flow, Turbulence and Combustion 106:1, pages 207-229.
Crossref
Gulcan Ozel Erol & Nilanjan Chakraborty. (2020) Effects of Mean Inflow Velocity and Droplet Diameter on the Propagation of Turbulent V-Shaped Flames in Droplet-Laden Mixtures. Fluids 6:1, pages 1.
Crossref
Peter Brearley, Umair Ahmed & Nilanjan Chakraborty. (2020) The relation between flame surface area and turbulent burning velocity in statistically planar turbulent stratified flames. Physics of Fluids 32:12.
Crossref
Gulcan Ozel-Erol, Josef Hasslberger, Markus Klein & Nilanjan Chakraborty. (2020) A direct numerical simulation analysis of turbulent V-shaped flames propagating into droplet-laden mixtures. International Journal of Multiphase Flow 133, pages 103455.
Crossref
Gulcan Ozel Erol, Josef Hasslberger, Markus Klein & Nilanjan Chakraborty. (2019) Propagation of Spherically Expanding Turbulent Flames into Fuel Droplet-Mists. Flow, Turbulence and Combustion 103:4, pages 913-941.
Crossref
Gulcan Ozel Erol, Josef Hasslberger, Markus Klein & Nilanjan Chakraborty. (2018) A direct numerical simulation analysis of spherically expanding turbulent flames in fuel droplet-mists for an overall equivalence ratio of unity. Physics of Fluids 30:8.
Crossref
Haiou Wang, Evatt R. Hawkes, Bruno Savard & Jacqueline H. Chen. (2018) Direct numerical simulation of a high Ka CH4/air stratified premixed jet flame. Combustion and Flame 193, pages 229-245.
Crossref
Andrei N. Lipatnikov. (2017) Stratified turbulent flames: Recent advances in understanding the influence of mixture inhomogeneities on premixed combustion and modeling challenges. Progress in Energy and Combustion Science 62, pages 87-132.
Crossref
Daniel H. Wacks & Nilanjan Chakraborty. (2016) Flame Structure and Propagation in Turbulent Flame-Droplet Interaction: A Direct Numerical Simulation Analysis. Flow, Turbulence and Combustion 96:4, pages 1053-1081.
Crossref
Dipal Patel & Nilanjan Chakraborty. (2016) Effects of Fuel Lewis Number on Localised Forced Ignition of Globally Stoichiometric Stratified Mixtures: a Numerical Investigation. Flow, Turbulence and Combustion 96:4, pages 1083-1105.
Crossref
Daniel H. Wacks, Nilanjan Chakraborty & Epaminondas Mastorakos. (2015) Statistical Analysis of Turbulent Flame-Droplet Interaction: A Direct Numerical Simulation Study. Flow, Turbulence and Combustion 96:2, pages 573-607.
Crossref
Cecile Pera, Stephane Chevillard & Julien Reveillon. (2013) Effects of residual burnt gas heterogeneity on early flame propagation and on cyclic variability in spark-ignited engines. Combustion and Flame 160:6, pages 1020-1032.
Crossref
Sean P. Malkeson & Nilanjan Chakraborty. (2012) Statistical Analysis and a-priori Modelling of Flame Surface Density Transport in Turbulent Stratified Flames: A Direct Numerical Simulation Study. Flow, Turbulence and Combustion 90:1, pages 143-187.
Crossref
Mark S. Sweeney, Simone Hochgreb, Matthew J. Dunn & Robert S. Barlow. (2012) The structure of turbulent stratified and premixed methane/air flames I: Non-swirling flows. Combustion and Flame 159:9, pages 2896-2911.
Crossref

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