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Combustion Science and Technology Volume 48, 1986 - Issue 1-2
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Original Articles

The Effect of Elevated Pressure on the Rate of Soot Production in Laminar Diffusion Flames

W. L. FLOWER Combustion Research Facility, Sandia National Laboratories, Livermore, California, 94550
Pages 31-43 | Received 21 May 1985, Published online: 30 Mar 2007

Citations (20)

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Read on this site (5)

Ranjith Kumar Abhinavam Kailasanathan, Ji Zhang, Tiegang Fang & William L. Roberts. (2014) Effects of Diluents on Soot Surface Temperature and Volume Fraction in Diluted Ethylene Diffusion Flames at Pressure. Combustion Science and Technology 186:6, pages 815-828.
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T. L. Berry Yelverton & W. L. Roberts. (2008) Effect of Dilution, Pressure, and Velocity on Smoke Point in Laminar Jet Flames. Combustion Science and Technology 180:7, pages 1334-1346.
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J. L ELLZEY, J. G. BERBE, E. Z. F. TAY & D. E. FOSTER. (1990) Total Soot Yield from a Propane Diffusion Flame in Cross-Flow. Combustion Science and Technology 71:1-3, pages 41-52.
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W. L. Flower & C. T. Bowman. (1987) Short Communication. Combustion Science and Technology 53:2-3, pages 217-224.
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Hafiz M.F. Amin, Anthony Bennett, Thibault F. Guiberti & William L. Roberts. Measurement of Soot Volume Fraction in Counterflow Diffusion Flames Up to 10 Atm Using Optical Diagnostics. Combustion Science and Technology 0:0, pages 1-16.
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Articles from other publishers (15)

Huaqiang Chu, Jiawei Qi, Shunjie Feng, Wenlong Dong, Run Hong, Bingbing Qiu & Weiwei Han. (2023) Soot formation in high-pressure combustion: Status and challenges. Fuel 345, pages 128236.
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Seuk Cheun Choi, Won-Ju Lee, Beom-Seok Roh & Seul-Hyun Park. (2017) Influences of elevated pressures on soot formation in coaxial ethylene–air diffusion flames under different ventilation conditions. International Journal of Hydrogen Energy 42:29, pages 18633-18642.
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Masoud Darbandi, Majid Ghafourizadeh, Mohammad Hasan Saidi & G E. Schneider. (2017) Analysis of Smoke-Aerosol Formation in Pressurized Turbulent Kerosene/Air Flames Using Different Soot Models. Analysis of Smoke-Aerosol Formation in Pressurized Turbulent Kerosene/Air Flames Using Different Soot Models.
F. Escudero, A. Fuentes, J.-L. Consalvi, F. Liu & R. Demarco. (2016) Unified behavior of soot production and radiative heat transfer in ethylene, propane and butane axisymmetric laminar diffusion flames at different oxygen indices. Fuel 183, pages 668-679.
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Suneel Kumar, Manish Kumar Chauhan & Varun. (2013) Numerical modeling of compression ignition engine: A review. Renewable and Sustainable Energy Reviews 19, pages 517-530.
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Ahmet E. Karataş & Ömer L. Gülder. (2012) Soot formation in high pressure laminar diffusion flames. Progress in Energy and Combustion Science 38:6, pages 818-845.
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Lorenzo Figura & Alessandro Gomez. (2012) Laminar counterflow steady diffusion flames under high pressure (P⩽ 3 MPa) conditions. Combustion and Flame 159:1, pages 142-150.
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Robert M. Woolley, Michael Fairweather & Yunardi. (2009) Conditional moment closure modelling of soot formation in turbulent, non-premixed methane and propane flames. Fuel 88:3, pages 393-407.
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T.L. Berry Yelverton & W.L. Roberts. (2008) Soot surface temperature measurements in pure and diluted flames at atmospheric and elevated pressures. Experimental Thermal and Fluid Science 33:1, pages 17-22.
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T.L. Berry & W.L. Roberts. (2006) Measurement of smoke point in velocity-matched coflow laminar diffusion flames with pure fuels at elevated pressures. Combustion and Flame 145:3, pages 571-578.
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L.L. McCrain & W.L. Roberts. (2005) Measurements of the soot volume field in laminar diffusion flames at elevated pressures. Combustion and Flame 140:1-2, pages 60-69.
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W.L. Flower. (1989) Soot particle temperatures in axisymmetric laminar ethylene-air diffusion flames at pressures up to 0.7 MPa. Combustion and Flame 77:3-4, pages 279-293.
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Campbell D. Carter, Galen B. King & Normand M. Laurendeau. (1989) A combustion facility for high-pressure flame studies by spectroscopic methods. Review of Scientific Instruments 60:8, pages 2606-2609.
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W.L. Flower. (1989) An investigation of soot formation in axisymmetric turbulent diffusion flames at elevated pressure. Symposium (International) on Combustion 22:1, pages 425-435.
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W.L. Flower & C.T. Bowman. (1988) Soot production in axisymmetric laminar diffusion flames at pressures from one to ten atmospheres. Symposium (International) on Combustion 21:1, pages 1115-1124.
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