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Combustion Science and Technology Volume 60, 1988 - Issue 4-6
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Original Articles

Stretched Laminar Flamelet Modeling of a Turbulent Jet Diffusion Flame

D. C. Haworth General Motors Research Laboratories, Warren, Michigan, 48090-9055, U.S.A.
,
M. C. Drake General Motors Research Laboratories, Warren, Michigan, 48090-9055, U.S.A.
&
R. J. Blint General Motors Research Laboratories, Warren, Michigan, 48090-9055, U.S.A.
Pages 287-318 | Received 11 Nov 1987, Accepted 23 May 1988, Published online: 27 Apr 2007

Citations (30)

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Xinyu Zhao, D.C. Haworth & E. David Huckaby. (2012) Transported PDF Modeling of Nonpremixed Turbulent CO/H2/N2 Jet Flames. Combustion Science and Technology 184:5, pages 676-693.
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R.R. SKAGGS, K. L. McNESBY, R.G. DANIEL, B. HOMAN & A.W. MIZIOLEK. (2001) Spectroscopic Studies of Low Pressure Opposed Flow Methane/Air Flames Inhibited by Fe(CO)5, CF3Br, or N2 . Combustion Science and Technology 162:1, pages 1-17.
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Benedicte Cuenot, Fokion Egolfopoulos & Thierry Poinsot. (2000) An unsteady laminar flamelet model for non-premixed combustion. Combustion Theory and Modelling 4:1, pages 77-97.
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GRAHAMM. GOLDIN & SURESH MENON. (1997) A Scalar PDF Construction Model for Turbulent Non-Premixed Combustion. Combustion Science and Technology 125:1-6, pages 47-72.
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D. Lentini. (1994) Assessment of The Stretched Laminar Flamelet Approach For Nonpremixed Turbulent Combustion . Combustion Science and Technology 100:1-6, pages 95-122.
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THOMASS. NORTON, KERMITC. SMYTH, J. HOUSTON MILLER & MITCHELLD. SMOOKE. (1993) Comparison of Experimental and Computed Species Concentration and Temperature Profiles in Laminar, Two-Dimensional Methane/Air Diffusion Flames. Combustion Science and Technology 90:1-4, pages 1-34.
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Michael C. Drake & Richard J. Blint. (1988) Structure of Laminar Opposed-flow Diffusion Flames With CO/H/N Fuel . Combustion Science and Technology 61:4-6, pages 187-224.
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Articles from other publishers (23)

Mohamed Hafid, Nacer Hebbir, Marcel Lacroix & Patrick Joly. (2022) Simulating of non-premixed turbulent combustion using a presumed probability density function method. Heat and Mass Transfer 59:1, pages 81-93.
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B. Cuenot, F. Shum-Kivan & S. Blanchard. (2022) The thickened flame approach for non-premixed combustion: Principles and implications for turbulent combustion modeling. Combustion and Flame 239, pages 111702.
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Isares Dhuchakallaya, Phadungsak Rattanadecho & Paul Watkins. (2013) Auto-ignition and combustion of diesel spray using unsteady laminar flamelet model. Applied Thermal Engineering 52:2, pages 420-427.
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D.C. Haworth. (2010) Progress in probability density function methods for turbulent reacting flows. Progress in Energy and Combustion Science 36:2, pages 168-259.
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Daniel W. Meyer & Patrick Jenny. (2008) An improved mixing model providing joint statistics of scalar and scalar dissipation. Combustion and Flame 155:3, pages 490-508.
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Hai-Wen Ge & Eva Gutheil. (2008) Simulation of a turbulent spray flame using coupled PDF gas phase and spray flamelet modeling. Combustion and Flame 153:1-2, pages 173-185.
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Haifeng Wang & Yiliang Chen. (2005) Steady flamelet modelling of a turbulent non-premixed flame considering scalar dissipation rate fluctuations. Fluid Dynamics Research 37:3, pages 133-153.
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S. Mitarai, G. Kosály & J.J. Riley. (2004) A new Lagrangian flamelet model for local flame extinction and reignition. Combustion and Flame 137:3, pages 306-319.
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R.V Ravikrishna & Normand M Laurendeau. (1998) Laser-Saturated Fluorescence Measurements of Nitric Oxide in Laminar Counterflow Diffusion Flames. Combustion and Flame 113:3, pages 473-475.
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J Wehrmeyer. (1996) Influence of strain rate and fuel dilution on laminar nonpremixed hydrogen—Air flame structure: An experimental investigation. Combustion and Flame 107:1-2, pages 125-140.
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D. Lentini & I.K. Puri. (1995) Stretched laminar flamelet modeling of turbulent chloromethane-air nonpremixed jet flames. Combustion and Flame 103:4, pages 328-338.
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W. E. Mell, V. Nilsen, G. Kosály & J. J. Riley. (1994) Investigation of closure models for nonpremixed turbulent reacting flows. Physics of Fluids 6:3, pages 1331-1356.
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Kermit C. Smyth, Thomas S. Norton, J. Houston Miller, Mitchell D. Smooke, Rahul Puri, Marlow Moser & Robert J. Santoro. 1994. Soot Formation in Combustion. Soot Formation in Combustion 113 133 .
R.S. Barlow & J.-Y. Chen. (1992) On transient flamelets and their relationship to turbulent methane-air jet flames. Symposium (International) on Combustion 24:1, pages 231-237.
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D. Roekaerts. (1991) Use of a Monte Carlo PDF method in a study of the influence of turbulent fluctuations on selectivity in a jet-stirred reactor. Applied Scientific Research 48:3-4, pages 271-300.
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Daniel C. Haworth & Sherif H. El Tahry. (1991) Probability density function approach for multidimensional turbulentflow calculations with application to in-cylinder flows in reciprocating engines. AIAA Journal 29:2, pages 208-218.
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. 1991. Numerical Approaches to Combustion Modeling. Numerical Approaches to Combustion Modeling 349 364 .
Robert S. Barlow. (1991) Multispecies Raman scattering combines with molecular fluorescence. Multispecies Raman scattering combines with molecular fluorescence.
S.B. Pope. (1991) Computations of turbulent combustion: Progress and challenges. Symposium (International) on Combustion 23:1, pages 591-612.
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A.T. Norris & S.B. Pope. (1991) Turbulent mixing model based on ordered pairing. Combustion and Flame 83:1-2, pages 27-42.
Crossref
D. Roekaerts. 1991. Computational Fluid Dynamics for the Petrochemical Process Industry. Computational Fluid Dynamics for the Petrochemical Process Industry 61 90 .
A.R. Masri & S.B. Pope. (1990) PDF calculations of piloted turbulent nonpremixed flames of methane. Combustion and Flame 81:1, pages 13-29.
Crossref
Michael C. Drake & Richard J. Blint. (1989) Thermal NOx in stretched laminar opposed-flow diffusion flames with CO/H2/N2 fuel. Combustion and Flame 76:2, pages 151-167.
Crossref

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