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Combustion Science and Technology Volume 128, 1997 - Issue 1-6
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Original Articles

Interdependence of the Instantaneous Flame Front Structure and the Overall Scalar Flux in Turbulent Premixed Flames

N. SWAMINATHAN Department of Mechanical and Mechatronic Engineering, The University of Sydney, Sydney, NSW, 2006, Australia|View further author information
,
R. W. BILGER Department of Mechanical and Mechatronic Engineering, The University of Sydney, Sydney, NSW, 2006, Australia|
&
G. R. RUETSCH Center for Turbulence Research, Stanford University, Stanford, CA, 94305, USA
Pages 73-97 | Received 06 Sep 1996, Accepted 07 Jul 1997, Published online: 26 Apr 2007

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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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R. Ranjan, B. Muralidharan, Y. Nagaoka & S. Menon. (2016) Subgrid-Scale Modeling of Reaction-Diffusion and Scalar Transport in Turbulent Premixed Flames. Combustion Science and Technology 188:9, pages 1496-1537.
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I. Ahmed & N. Swaminathan. (2013) Simulation of Spherically Expanding Turbulent Premixed Flames. Combustion Science and Technology 185:10, pages 1509-1540.
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A. N. Lipatnikov. (2010) Simulations of Scalar Transport in Developing Turbulent Flames Solving a Conditioned Balance Equation. Combustion Science and Technology 182:4-6, pages 405-421.
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A N Lipatnikov & J Chomiak. (2004) A study of the effects of pressure-driven transport on developing turbulent flame structure and propagation. Combustion Theory and Modelling 8:2, pages 211-225.
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Vladimir L Zimont & Fernando Biagioli. (2002) Gradient, counter-gradient transport and their transition in turbulent premixed flames. Combustion Theory and Modelling 6:1, pages 79-101.
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N Swaminathan & R W Bilger. (2001) Scalar dissipation, diffusion and dilatation in turbulent H2-air premixed flames with complex chemistry. Combustion Theory and Modelling 5:3, pages 429-446.
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YUNG-CHENG CHEN*ROBERTW BILGER. (2001) Simultaneous 2-D Imaging Measurements of Reaction Progress Variable and OH Radical Concentration in Turbulent Premixed Flames: Instantaneous Flame-Front Structure. Combustion Science and Technology 167:1, pages 187-222.
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A.N. LIPATNIKOV & J. CHOMIAK. (2001) Developing Premixed Turbulent Flames: Part II. Pressure-Driven Transport and Turbulent Diffusion. Combustion Science and Technology 165:1, pages 175-195.
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HOLGER WENZEL & NORBERT PETERS. (2000) Direct Numerical Simulation and Modeling of Kinematic Restoration, Dissipation and Gas Expansion Effects of Premixed Flames in Homogeneous Turbulence. Combustion Science and Technology 158:1, pages 273-297.
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A. N. LIPATNIKOV & J. CHOMIAK. (2000) Transient and Geometrical Effects in Expanding Turbulent Flames. Combustion Science and Technology 154:1, pages 75-117.
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Articles from other publishers (32)

Robert W. Bilger. (2023) Heat and Mass Transfer in Turbulent Combustion. Heat and Mass Transfer in Turbulent Combustion.
François Chantriaux, Théo Quenouille, Nguyen Anh Khoa Doan, Nedunchezhian Swaminathan, Yannis Hardalupas & AMKP Taylor. (2022) Multiscale analysis of turbulence-flame interaction based on measurements in premixed flames. Combustion and Flame 239, pages 111982.
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Shokri Amzin & Mariusz Domagała. (2021) Modelling of Conditional Scalar Dissipation Rate in Turbulent Premixed Combustion. Computation 9:3, pages 26.
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Vladimir A. Sabelnikov, Andrei N. Lipatnikov, Nilanjan Chakraborty, Shinnosuke Nishiki & Tatsuya Hasegawa. (2017) A balance equation for the mean rate of product creation in premixed turbulent flames. Proceedings of the Combustion Institute 36:2, pages 1893-1901.
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Sina Kheirkhah & Ömer L. Gülder. (2015) Consumption speed and burning velocity in counter-gradient and gradient diffusion regimes of turbulent premixed combustion. Combustion and Flame 162:4, pages 1422-1439.
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A. N. Lipatnikov, V. A. Sabelnikov, S. Nishiki, T. Hasegawa & N. Chakraborty. (2014) DNS Assessment of a Simple Model for Evaluating Velocity Conditioned to Unburned Gas in Premixed Turbulent Flames. Flow, Turbulence and Combustion 94:3, pages 513-526.
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Guido Troiani, Francesco Battista & Francesco Picano. (2013) Turbulent consumption speed via local dilatation rate measurements in a premixed bunsen jet. Combustion and Flame 160:10, pages 2029-2037.
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A. N. Lipatnikov & V. A. Sabelnikov. (2012) Transition from Countergradient to Gradient Scalar Transport in Developing Premixed Turbulent Flames. Flow, Turbulence and Combustion 90:2, pages 401-418.
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Andrei Lipatnikov. 2012. Fundamentals of Premixed Turbulent Combustion. Fundamentals of Premixed Turbulent Combustion 324 445 .
Andrei N. Lipatnikov. (2010) Transient Behavior of Turbulent Scalar Transport in Premixed Flames. Flow, Turbulence and Combustion 86:3-4, pages 609-637.
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H. Kolla & N. Swaminathan. (2010) Strained flamelets for turbulent premixed flames, I: Formulation and planar flame results. Combustion and Flame 157:5, pages 943-954.
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G. Hartung, J. Hult, R. Balachandran, M. R. Mackley & C. F. Kaminski. (2009) Flame front tracking in turbulent lean premixed flames using stereo PIV and time-sequenced planar LIF of OH. Applied Physics B 96:4, pages 843-862.
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G. Hartung, J. Hult, C. F. Kaminski, J. W. Rogerson & N. Swaminathan. (2008) Effect of heat release on turbulence and scalar-turbulence interaction in premixed combustion. Physics of Fluids 20:3, pages 035110.
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SEUNG HYUN KIM & ROBERT W. BILGER. (2007) Iso-surface mass flow density and its implications for turbulent mixing and combustion. Journal of Fluid Mechanics 590, pages 381-409.
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Seung Hyun Kim & Heinz Pitsch. (2007) Scalar gradient and small-scale structure in turbulent premixed combustion. Physics of Fluids 19:11.
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N. Chakraborty & N. Swaminathan. (2007) Influence of the Damköhler number on turbulence-scalar interaction in premixed flames. II. Model development. Physics of Fluids 19:4.
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N. Chakraborty & N. Swaminathan. (2007) Influence of the Damköhler number on turbulence-scalar interaction in premixed flames. I. Physical insight. Physics of Fluids 19:4.
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N. Swaminathan & R. W. Grout. (2006) Interaction of turbulence and scalar fields in premixed flames. Physics of Fluids 18:4.
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R.W. Bilger, S.B. Pope, K.N.C. Bray & J.F. Driscoll. (2005) Paradigms in turbulent combustion research. Proceedings of the Combustion Institute 30:1, pages 21-42.
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A.N. Lipatnikov & J. Chomiak. (2005) Molecular transport effects on turbulent flame propagation and structure. Progress in Energy and Combustion Science 31:1, pages 1-73.
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P.A.M. Kalt, Y.-C. Chen & R.W. Bilger. (2002) Experimental investigation of turbulent scalar flux in premixed stagnation-type flames. Combustion and Flame 129:4, pages 401-415.
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Fernando Biagioli & Vladimir L. Zimont. (2002) Gasdynamics modeling of countergradient transport in open and impinging turbulent premixed flames. Proceedings of the Combustion Institute 29:2, pages 2087-2095.
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Yung-Cheng Chen, Peter A.M. Kalt, Robert W. Bilger & N. Swaminathan. (2002) Effects of mean flow divergence on turbulent scalar flux and local flame structure in premixed turbulent combustion. Proceedings of the Combustion Institute 29:2, pages 1863-1871.
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A.N. Lipatnikov & J. Chomiak. (2002) Turbulent flame speed and thickness: phenomenology, evaluation, and application in multi-dimensional simulations. Progress in Energy and Combustion Science 28:1, pages 1-74.
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N. Swaminathan, R.W. Bilger & B. Cuenot. (2001) Relationship between turbulent scalar flux and conditional dilatation in premixed flames with complex chemistry. Combustion and Flame 126:4, pages 1764-1779.
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D.S. Louch & K.N.C. Bray. (2001) Vorticity in unsteady premixed flames: vortex pair–premixed flame interactions under imposed body forces and various degrees of heat release and laminar flame thickness. Combustion and Flame 125:4, pages 1279-1309.
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R.W. Bilger. (2000) Future progress in turbulent combustion research. Progress in Energy and Combustion Science 26:4-6, pages 367-380.
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Yung-Cheng Chen & Robert W. Bilger. (2000) Turbulence and scalar transport in premixed bunsen flames of lean hydrogen/air mixtures. Proceedings of the Combustion Institute 28:1, pages 521-528.
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Andrei Lipatnikov & Jerzy Chomiak. (2000) Dependence of heat release on the progress variable in premixed turbulent combustion. Proceedings of the Combustion Institute 28:1, pages 227-234.
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Jonathan H. Frank, Peter A.M. Kalt & Robert W. Bilger. (1999) Measurements of conditional velocities in turbulent premixed flames by simultaneous OH PLIF and PIV. Combustion and Flame 116:1-2, pages 220-232.
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D.S. Louch & K.N.C. Bray. (1998) Vorticity and scalar transport in premixed turbulent combustion. Symposium (International) on Combustion 27:1, pages 801-810.
Crossref
Peter A.M. Kalt, Jonathan H. Frank & Robert W. Bilger. (1998) Laser imaging of conditional velocities in premixed propane-air flames by simulataneous OH PLIF and PIV. Symposium (International) on Combustion 27:1, pages 751-758.
Crossref

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