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Combustion Science and Technology Volume 53, 1987 - Issue 2-3
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Original Articles

Ignition of Non Dilute Clusters of Drops in Convective Flows

J. Bellan Jet Propulsion Laboratory, California Institute of Technology, Oak Grove Drive, Pasadena
&
K. Harstad Jet Propulsion Laboratory, California Institute of Technology, Oak Grove Drive, Pasadena
Pages 75-87 | Received 28 May 1986, Published online: 06 Apr 2007

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Achintya Mukhopadhyay & Dipankar Sanyal. (2012) Modeling of Evaporation and Combustion of Droplets in a Spray Using the Unit Cell Approach: A Review. Heat Transfer Engineering 33:4-5, pages 375-386.
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J. BELLAN. (1996) External Cluster Combustion of Binary-Fuel Drops. Combustion Science and Technology 120:1-6, pages 213-236.
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J. BELLAN & K. HARSTAD. (1995) Ignition of a Binary-fuel (Solvent-Solute) Cluster of Drops. Combustion Science and Technology 110-111:1, pages 531-548.
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T. L. JIANG, W. S. CHEN, M. J. TSAI & H. H. CHIU. (1994) Double Flame and Multiple Solution Computations for a Wetted Porous Sphere Vaporizing in Reactive Flows. Combustion Science and Technology 102:1-6, pages 115-143.
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Y. Hardalupas, C. H. Liu & J. H. Whitelaw. (1994) Experiments with Disk Stabilized Kerosene-Fuelled Flames. Combustion Science and Technology 97:1-3, pages 157-191.
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M. MAWID & S. K. AGGARWAL. (1989) Chemical Kinetics Effects on the Ignition of a Fuel Droplet. Combustion Science and Technology 65:1-3, pages 137-150.
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Articles from other publishers (23)

Mustafa Mutiur Rahman, Ahmed Saieed, Muhammad Fasahat Khan & Jean-Pierre Hickey. (2022) Group Combustion of Dispersed Spherical Core–Shell Nanothermite Particles. Thermo 2:3, pages 209-231.
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Hengyi Zhou & Yu Cheng Liu. (2021) External group combustion of droplet clouds under two-stage autoignition conditions. Combustion and Flame 234, pages 111689.
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Hengyi Zhou, Wenyi Zhang & Yu Cheng Liu. (2021) A cell model analysis for droplets inside non-dilute n-heptane droplet clouds near autoignition limit. International Journal of Heat and Mass Transfer 175, pages 121189.
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Aimee Williams, Jerry Seitzman & Ben T. Zinn. (2020) Visualization of Autoignition Kernels in a Jet-A Spray Using High-Speed OH PLIF. Visualization of Autoignition Kernels in a Jet-A Spray Using High-Speed OH PLIF.
Suresh K. Aggarwal. (2014) Single droplet ignition: Theoretical analyses and experimental findings. Progress in Energy and Combustion Science 45, pages 79-107.
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Alexandre Neophytou, Epaminondas Mastorakos & Robert Stewart Cant. (2012) The internal structure of igniting turbulent sprays as revealed by complex chemistry DNS. Combustion and Flame 159:2, pages 641-664.
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A. Neophytou, E. Mastorakos & R.S. Cant. (2011) Complex chemistry simulations of spark ignition in turbulent sprays. Proceedings of the Combustion Institute 33:2, pages 2135-2142.
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Epaminondas Mastorakos. (2009) Ignition of turbulent non-premixed flames. Progress in Energy and Combustion Science 35:1, pages 57-97.
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Achintya Mukhopadhyay & Dipankar Sanyal. (2001) A parametric study of burning of multicomponent droplets in a dilute spray. International Journal of Energy Research 25:14, pages 1295-1314.
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S.K. Aggarwal. (1998) A review of spray ignition phenomena: Present status and future research. Progress in Energy and Combustion Science 24:6, pages 565-600.
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Xianguo Li. (1997) Droplet Autoignition in a Reactive Oxidant/Fuel-Vapor/Inert Environment. Journal of Propulsion and Power 13:1, pages 89-96.
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Shwin-Chung Wong, Tzu-Sheng Hsu & Jyh-Cheng Chang. (1996) Validity of droplet ignition criteria derived assuming gas-phase quasisteadiness. Journal of Propulsion and Power 12:1, pages 18-25.
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D. Thibaut & S. Candel. (1996) A simple model of ignition modes of dense droplet clouds. Symposium (International) on Combustion 26:2, pages 2565-2572.
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Xianguo Li. (1995) Droplet autoignition in a reactive oxidant/fuel-vapor/inert environment. Droplet autoignition in a reactive oxidant/fuel-vapor/inert environment.
Y. Hardalupas, A.M.K.P. Taylor & J.H. Whitelaw. (1994) Mass flux, mass fraction and concentration of liquid fuel in a swirl-stabilized flame. International Journal of Multiphase Flow 20, pages 233-259.
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F. Fichot, K. Harstad & J. Bellan. (1994) Unsteady evaporation and combustion of a drop cluster inside a vortex. Combustion and Flame 98:1-2, pages 5-19.
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Akira Umemura. (1994) Interactive droplet vaporization and combustion: Approach from asymptotics. Progress in Energy and Combustion Science 20:4, pages 325-372.
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Kalyan Annamalai & William Ryan. (1992) Interactive processes in gasification and combustion. Part I: Liquid drop arrays and clouds. Progress in Energy and Combustion Science 18:3, pages 221-295.
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Q.-V. Nguyen, R.H. Rangel & D. Dunn-Rankin. (1991) Measurement and prediction of trajectories and collision of droplets. International Journal of Multiphase Flow 17:2, pages 159-177.
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. 1991. Numerical Approaches to Combustion Modeling. Numerical Approaches to Combustion Modeling 547 583 .
J. Bellan & K. Harstad. (1990) Evaporation, ignition, and combustion of nondilute clusters of drops. Combustion and Flame 79:3-4, pages 272-286.
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J. Bellan & K. Harstad. (1989) Transport-related phenomena for clusters of drops. International Journal of Heat and Mass Transfer 32:10, pages 2000-2002.
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M Golombok & D B Pye. (1989) Stimulated Raman scattering in diesel injected fuel sprays. Journal of Physics D: Applied Physics 22:6, pages 851-853.
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