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Combustion Science and Technology Volume 171, 2001 - Issue 1
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Original Articles

MEASUREMENT OF FRACTAL PROPERTIES OF SOOT AGGLOMERATES IN LAMINAR COFLOW DIFFUSION FLAMES USING THERMOPHORETIC SAMPLING IN CONJUNCTION WITH TRANSMISSION ELECTRON MICROSCOPY AND IMAGE PROCESSING

ALMILA GÜVENÇ YAZICIOGLU Department of Mechanical Engineering, University of Illinois at Chicago, Chicago, Illinois, USA
,
CONSTANTINE M. MEGARIDIS Department of Mechanical Engineering, University of Illinois at Chicago, Chicago, Illinois, USA
,
ANGELA CAMPBELL Illinois Mathematics and Science Academy, Aurora, Illinois, USA
,
KYEONG-OOK LEE Center forTransportation Research, Argonne National Laboratory, Darien, Illinois, USA
&
MUN YOUNG CHOI Department of Mechanical Engineering and Mechanics, Drexel University, Philadelphia, Pennsylvania, USA
Pages 71-87 | Received 11 Jul 2000, Accepted 23 Aug 2001, Published online: 03 Apr 2007

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Armin Veshkini, Seth B. Dworkin & Murray J. Thomson. (2016) Understanding soot particle size evolution in laminar ethylene/air diffusion flames using novel soot coalescence models. Combustion Theory and Modelling 20:4, pages 707-734.
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NickA. Eaves, MurrayJ. Thomson & SethB. Dworkin. (2013) The Effect of Conjugate Heat Transfer on Soot Formation Modeling at Elevated Pressures. Combustion Science and Technology 185:12, pages 1799-1819.
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Q. Zhang, M. J. Thomson, H. Guo, F. Liu & G. J. Smallwood. (2010) Modeling of Oxidation-Driven Soot Aggregate Fragmentation in a Laminar Coflow Diffusion Flame. Combustion Science and Technology 182:4-6, pages 491-504.
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Y.H. Chen, S.D. Bakrania, M.S. Wooldridge & A.M. Sastry. (2010) Image Analysis and Computer Simulation of Nanoparticle Clustering in Combustion Systems. Aerosol Science and Technology 44:1, pages 83-95.
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Q. Zhang, H. Guo, F. Liu, G.J. Smallwood & M.J. Thomson. (2008) Implementation of an advanced fixed sectional aerosol dynamics model with soot aggregate formation in a laminar methane/air coflow diffusion flame. Combustion Theory and Modelling 12:4, pages 621-641.
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