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Combustion Science and Technology Volume 82, 1992 - Issue 1-6
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Original Articles

Ultrafine Refractory Particle Formation in Counterflow Diffusion Flames

JOSEPH L. KATZ Department of Chemical Engineering, The Johns Hopkins University, Baltimore, Maryland, 21218, U.S.AView further author information
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CHENG-HUNG HUNG Department of Chemical Engineering, The Johns Hopkins University, Baltimore, Maryland, 21218, U.S.A
Pages 169-183 | Published online: 03 May 2007

Citations (22)

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Read on this site (3)

Chang-Yu Wu & Pratim Biswas. (1998) Study of Numerical Diffusion in a Discrete-Sectional Model and Its Application to Aerosol Dynamics Simulation. Aerosol Science and Technology 29:5, pages 359-378.
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PUSHKAR TANDON & DANIELE. ROSNER. (1996) SINTERING KINETICS AND TRANSPORT PROPERTY EVOLUTION OF LARGE MULTI-PARTICLE AGGREGATES1 . Chemical Engineering Communications 151:1, pages 147-168.
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ALESSANDRO GOMEZ & DANIEL E ROSNER. (1993) Thermophoretic Effects on Particles in Counterflow Laminar Diffusion Flames. Combustion Science and Technology 89:5-6, pages 335-362.
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Articles from other publishers (19)

Hassan Sabzyan & Farhad Ghalami. (2019) Electric field effects on the growth of flame-synthesized nanosilica: a two-stage modeling. Journal of the Iranian Chemical Society 16:5, pages 963-978.
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Lars Zigan. (2018) Overview of Electric Field Applications in Energy and Process Engineering. Energies 11:6, pages 1361.
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Shuiqing Li, Yihua Ren, Pratim Biswas & Stephen D. Tse. (2016) Flame aerosol synthesis of nanostructured materials and functional devices: Processing, modeling, and diagnostics. Progress in Energy and Combustion Science 55, pages 1-59.
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Y. Wang, G.J. Nathan, Z.T. Alwahabi, K.D. King, K. Ho & Q. Yao. (2010) Effect of a uniform electric field on soot in laminar premixed ethylene/air flames. Combustion and Flame 157:7, pages 1308-1315.
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Hong Zhao, Xiaofei Liu & Stephen D. Tse. (2007) Control of nanoparticle size and agglomeration through electric-field-enhanced flame synthesis. Journal of Nanoparticle Research 10:6, pages 907-923.
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R. Kavitha, S. Meghani & V. Jayaram. (2007) Synthesis of titania films by combustion flame spray pyrolysis technique and its characterization for photocatalysis. Materials Science and Engineering: B 139:2-3, pages 134-140.
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Yan Zheng-Xin, Wu Jing-He, Hu Dong & Yang Xiang-Dong. (2006) Agglomeration Evolution of Nano-Particles Aluminium in Normal Incident Shock Wave. Chinese Physics Letters 23:1, pages 217-219.
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A Colibaba-Evulet, V Shukla, N.G Glumac, B Kear & F Cosandey. (2001) Parametric study of zirconia nanoparticle synthesis in low pressure flames. Scripta Materialia 44:8-9, pages 2259-2262.
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Yangchuan Xing, Umit O. Koylu & Daniel E. Rosner. (1999) In situ light-scattering measurements of morphologically evolving flame-synthesized oxide nanoaggregates. Applied Optics 38:12, pages 2686.
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N. G. Glumac, Y-J. Chen & G. Skandan. (2011) Diagnostics and Modeling of Nanopowder Synthesis in Low Pressure Flames. Journal of Materials Research 13:9, pages 2572-2579.
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Ganesh Skandan. (2011) Nanostructured powders: a new class of materials for forming high performance particulate coatings. MRS Proceedings 501.
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Yangchuan Xing, Ümit Ö. Köylü & Daniel E. Rosner. (1996) Synthesis and restructuring of inorganic nano-particles in counterflow diffusion flames. Combustion and Flame 107:1-2, pages 85-102.
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Philippe F. Miquel & Joseph L. Katz. 1996. Advanced Catalysts and Nanostructured Materials. Advanced Catalysts and Nanostructured Materials 515 533 .
P.F. Miquel & J.L. Katz. 1995. Preparation of Catalysis VI - Scientific Bases for the Preparation of Heterogeneous Catalysts, Proceedings of the Sixth International Symposium. Preparation of Catalysis VI - Scientific Bases for the Preparation of Heterogeneous Catalysts, Proceedings of the Sixth International Symposium 207 216 .
J.L. Katz & P.F. Miquel. (1994) Syntheses and applications of oxides and mixed oxides produced by a flame process. Nanostructured Materials 4:5, pages 551-557.
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Philippe F. Miquel & Joseph L. Katz. (2011) Formation and characterization of nanostructured V—P—O particles in flames: A new route for the formation of catalysts. Journal of Materials Research 9:3, pages 746-754.
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Philippe F. Miquel, Cheng-Hung Hung & Joseph L. Katz. (2011) Formation of V 2 O 5 -based mixed oxides in flames . Journal of Materials Research 8:9, pages 2404-2413.
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Cheng-Hung Hung, Philippe F. Miquel & Joseph L. Katz. (2011) Formation of mixed oxide powders in flames: Part II. SiO 2 −GeO 2 and Al 2 O 3 −TiO 2 . Journal of Materials Research 7:7, pages 1870-1875.
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Cheng-Hung Hung & Joseph L. Katz. (2011) Formation of mixed oxide powders in flames: Part I. TiO 2 −SiO 2 . Journal of Materials Research 7:7, pages 1861-1869.
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