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Combustion Science and Technology Volume 5, 1972 - Issue 1
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Original Articles

Soot Formation at High Pressures: A Literature Review

J. S. McARRAGHER Department of Mechanical Engineering, Queen Mary College, London, Great Britain
&
K. J. TAN Department of Mechanical Engineering, Queen Mary College, London, Great Britain
Pages 257-261 | Published online: 10 May 2007

Citations (22)

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Read on this site (3)

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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W. L. FLOWER. (1986) The Effect of Elevated Pressure on the Rate of Soot Production in Laminar Diffusion Flames. Combustion Science and Technology 48:1-2, pages 31-43.
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W. L. FLOWER & C. T. BOWMAN. (1984) SHORT COMMUNICATION. Combustion Science and Technology 37:1-2, pages 93-97.
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Articles from other publishers (19)

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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Erica Quadarella, Junjun Guo, Alberto Cuoci & Hong G. Im. (2022) Flame-controlling continuation method for extinction of counterflow sooting flames with detailed chemistry. Flame-controlling continuation method for extinction of counterflow sooting flames with detailed chemistry.
Jacob W. Martin, Maurin Salamanca & Markus Kraft. (2022) Soot inception: Carbonaceous nanoparticle formation in flames. Progress in Energy and Combustion Science 88, pages 100956.
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Yu Wang & Suk Ho Chung. (2019) Soot formation in laminar counterflow flames. Progress in Energy and Combustion Science 74, pages 152-238.
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Alex M. Vargas & Ömer L. Gülder. (2016) A multi-probe thermophoretic soot sampling system for high-pressure diffusion flames. Review of Scientific Instruments 87:5.
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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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H. Gohari Darabkhani, J. Bassi, H.W. Huang & Y. Zhang. (2009) Fuel effects on diffusion flames at elevated pressures. Fuel 88:2, pages 264-271.
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Richard C. Corlett & Anay Luketa-Hanlin. 2008. Progress in Scale Modeling. Progress in Scale Modeling 85 97 .
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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Linda Blevins. (2003) Particulate Matter Emitted from Aircraft Engines. Particulate Matter Emitted from Aircraft Engines.
Ahsan R. Choudhuri & S. R. Gollahalli. (2001) Pressure Effects on Geometry and Structure of Gas Jet Flames in Crossflow. Journal of Propulsion and Power 17:1, pages 190-196.
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Anthony W. Strawa & Brian J. Cantwell. (2006) Investigation of an excited jet diffusion flame at elevated pressure. Journal of Fluid Mechanics 200, pages 309-336.
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H. Mätzing & H.Gg. Wagner. (1988) Measurements about the influence of pressure on carbon formation in premixed laminar C2H4-air flames. Symposium (International) on Combustion 21:1, pages 1047-1055.
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M.M. Hirschler. (2016) Soot From Fires: I. Properties and Methods of Investigation. Journal of Fire Sciences 3:5, pages 343-374.
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W.L. Flower & C.T. Bowman. (1985) Measurements of the structure of sooting laminar diffusion flames at elevated pressures. Symposium (International) on Combustion 20:1, pages 1035-1044.
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Arthur Levy. (1982) Unresolved problems in SOx, NOx, soot control in combustion. Symposium (International) on Combustion 19:1, pages 1223-1242.
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B.S. Haynes & H.Gg. Wagner. (1981) Soot formation. Progress in Energy and Combustion Science 7:4, pages 229-273.
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S. L. Plee, T. Ahmad, J. P. Myers & D. C. Siegla. 1981. Particulate Carbon. Particulate Carbon 423 487 .

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