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Combustion Science and Technology Volume 176, 2004 - Issue 5-6
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Original Articles

MODELING TURBULENT REACTIVE FLOWS WITH VARIABLE EQUIVALENCE RATIO: APPLICATION TO THE CALCULATION OF A REACTIVE SHEAR LAYER

G. Ribert Laboratoire de Combustion et de Détonique, UPR9028 CNRS, ENSMA, Futuroscope, France
,
M. Champion Laboratoire de Combustion et de Détonique, UPR9028 CNRS, ENSMA, Futuroscope, France
&
P. Plion Département Mécanique des Fluides et Transferts Thermiques, Electrité de France, Chatou, France
Pages 907-923 | Received 01 Oct 2003, Published online: 11 Aug 2010

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A. N. Lipatnikov & C. Huang. (2015) Modeling of the Influence of Mixture Fraction Fluctuations on Burning Rate in Partially Premixed Turbulent Flames. Combustion Science and Technology 187:4, pages 594-626.
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O.R. Darbyshire & N. Swaminathan. (2012) A Presumed Joint pdf Model for Turbulent Combustion with Varying Equivalence Ratio. Combustion Science and Technology 184:12, pages 2036-2067.
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F.O. Andrade, L.F. Figueira da Silva & A. Mora. (2011) Large Eddy Simulation of Turbulent Premixed Combustion at Moderate Damköhler Numbers Stabilized in a High-Speed Flow. Combustion Science and Technology 183:7, pages 645-664.
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O. R. Darbyshire, N. Swaminathan & S. Hochgreb. (2010) The Effects of Small-Scale Mixing Models on the Prediction of Turbulent Premixed and Stratified Combustion. Combustion Science and Technology 182:9, pages 1141-1170.
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R.W. Grout, N. Swaminathan & R.S. Cant. (2009) Effects of compositional fluctuations on premixed flames. Combustion Theory and Modelling 13:5, pages 823-852.
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VINCENT ROBIN, ARNAUD MURA, MICHEL CHAMPION & PIERRE PLION. (2006) A MULTI-DIRAC PRESUMED PDF MODEL FOR TURBULENT REACTIVE FLOWS WITH VARIABLE EQUIVALENCE RATIO. Combustion Science and Technology 178:10-11, pages 1843-1870.
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Articles from other publishers (16)

Mohammadreza Ghadimi, Hassan Atayizadeh & M. Mahdi Salehi. (2021) Presumed Joint-PDF Modelling for Turbulent Stratified Flames. Flow, Turbulence and Combustion 107:2, pages 405-439.
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A.N. Lipatnikov, V.A. Sabelnikov, F.E. Hernández-Pérez, W. Song & Hong G. Im. (2021) Prediction of mean radical concentrations in lean hydrogen-air turbulent flames at different Karlovitz numbers adopting a newly extended flamelet-based presumed PDF. Combustion and Flame 226, pages 248-259.
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Arash Mousemi & W. Kendal Bushe. (2021) The joint probability density function of mixture fraction, reaction progress variable, and total enthalpy in a stratified, swirl-stabilized turbulent flame. Physics of Fluids 33:3.
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Andrei N. Lipatnikov & Vladimir A. Sabelnikov. (2020) An extended flamelet-based presumed probability density function for predicting mean concentrations of various species in premixed turbulent flames. International Journal of Hydrogen Energy 45:55, pages 31162-31178.
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Charles Turquand d’Auzay, Umair Ahmed, Abhishek L. Pillai, Nilanjan Chakraborty & Ryoichi Kurose. (2019) Statistics of progress variable and mixture fraction gradients in an open turbulent jet spray flame. Fuel 247, pages 198-208.
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Lei Guo & Jesse Capecelatro. (2019) The role of clusters on heat transfer in sedimenting gas-solid flows. International Journal of Heat and Mass Transfer 132, pages 1217-1230.
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Umair Ahmed, Charles Turquand d’Auzay, Masaya Muto, Nilanjan Chakraborty & Ryoichi Kurose. (2019) Statistics of reaction progress variable and mixture fraction gradients of a pulverised coal jet flame using Direct Numerical Simulation data. Proceedings of the Combustion Institute 37:3, pages 2821-2830.
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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.
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Hongda Zhang, Taohong Ye, Gaofeng Wang, Peng Tang & Minghou Liu. (2016) Large Eddy Simulation of Turbulent Premixed Swirling Flames Using Dynamic Thickened Flame with Tabulated Detailed Chemistry. Flow, Turbulence and Combustion 98:3, pages 841-885.
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A. Benarous, D. Karmed, A. Liazid & M. Champion. (2014) Numerical simulation of a turbulent partially premixed flame with inhomogeneous equivalence ratio. Fuel 124, pages 57-65.
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Abdallah Benarous, Djamel Karmed & Abdelkrim Liazid. (2013) Modeling and numerical simulation of a pilot-stabilized turbulent premixed flame. Journal of Mechanical Science and Technology 27:8, pages 2557-2568.
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Andrei Lipatnikov. 2012. Fundamentals of Premixed Turbulent Combustion. Fundamentals of Premixed Turbulent Combustion 324 445 .
Chen Huang & Andrei N. Lipatnikov. (2012) Comparison of Presumed PDF Models of Turbulent Flames. Journal of Combustion 2012, pages 1-15.
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Stewart Cant. 2011. Turbulent Combustion Modeling. Turbulent Combustion Modeling 63 90 .
Mohamed Kanniche. (2010) Coupling CFD with chemical reactor network for advanced NO x prediction in gas turbine. Clean Technologies and Environmental Policy 12:6, pages 661-670.
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B. Jin, R. Grout & W. K. Bushe. (2008) Conditional Source-Term Estimation as a Method for Chemical Closure in Premixed Turbulent Reacting Flow. Flow, Turbulence and Combustion 81:4, pages 563-582.
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