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Combustion Science and Technology Volume 24, 1980 - Issue 5-6
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Original Articles

Strong Turbulent Buoyant Plumes. I. Similarity

M. A. DELICHATSIOS Factory Mutual Research Corp, 1151 Boston-Providence Turnpike, Norwood, MA, 02062
Pages 191-195 | Received 24 Apr 1980, Accepted 19 Aug 1980, Published online: 09 Jun 2010

Citations (30)

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Read on this site (2)

M. A. DELICHATSIOS. (1988) On the Similarity of Velocity and Temperature Profiles In Strong (Variable Density) Turbulent Buoyant Plumes. Combustion Science and Technology 60:4-6, pages 253-266.
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F. A. ALBINI USDA. (1983) Transport of Firebrands by Line Thermals †. Combustion Science and Technology 32:5-6, pages 277-288.
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Articles from other publishers (28)

Jiang Lv, Qiang Wang, Fei Tang & Xiepeng Sun. (2023) The evolution of flame geometrical characteristics and air entrainment of inclined jet flames. Process Safety and Environmental Protection 178, pages 414-422.
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Nur Shahidah Ab Aziz, Rafiziana Md Kasmani, Mohd Dinie Muhaimin Samsudin, Arshad Ahmad, Aishah Abd Jalil & Norazana Ibrahim. (2023) Effects of impinging object on geometrical flame features of horizontal jet flames. Process Safety and Environmental Protection 177, pages 1523-1530.
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Bo Li, Michael A. Delichatsios, Jie Ji & Albert Simeoni. (2023) Experimental and theoretical study of combustion and aerothermodynamic effects on the flame structure from wind-driven rectangular fires. Fire Safety Journal 137, pages 103734.
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Jiang Lv, Michael A. Delichatsios, Mary Deligiannis, Hongyu Lu, Xin Li, Yuxuan Ma, Xiepeng Sun & Longhua Hu. (2023) Experimental study, dimensional analysis and an integral model for horizontal buoyant turbulent jet fires under opposing wind. Proceedings of the Combustion Institute 39:3, pages 4095-4104.
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Wei Gao, Naian Liu, Xiaodong Xie, Haixiang Chen, Hong Zhu & Yan Jiao. (2023) Experimental and analytical study on inclined turbulent fire in still air. Part 2. Round fire. Proceedings of the Combustion Institute 39:3, pages 4085-4093.
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Wei Gao, Naian Liu, Xiaodong Xie, Hong Zhu, Linhe Zhang & Yan Jiao. (2023) Experimental and analytical study on inclined turbulent fire in still air. Part 1. Line fire. Proceedings of the Combustion Institute 39:3, pages 4075-4083.
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Martin Kocan & Alex Skvortsov. (2022) Scaling laws of strong convective thermals: comparison with experimental data. Environmental Fluid Mechanics 22:1, pages 245-257.
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Jiang Lv, Xiaolei Zhang, Shixiang Liu, Hongyu Lu, Yuxuan Ma & Longhua Hu. (2022) Flame morphology of horizontal jets under sub-atmospheric pressures: Experiment, dimensional analysis and an integral model. Fuel 307, pages 121891.
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Alex Skvortsov, Timothy C. DuBois, Milan Jamriska & Martin Kocan. (2021) Scaling laws for extremely strong thermals. Physical Review Fluids 6:5.
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Shixiang Liu, Michael A. Delichatsios & Longhua Hu. (2019) Flame profile parameters of horizontal turbulent jets: Experiments, similarity analysis and an integral model. Combustion and Flame 207, pages 1-9.
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I. Ben Abdellaziz, M. Bouterra, A. El Cafsi, A. Belghith & B. Kalech. (2017) Numerical and theoretical solutions of a turbulent boussinesq fountain generated from maintained sources. High Temperature 55:4, pages 579-584.
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Fabien Candelier & Olivier Vauquelin. (2012) Matched asymptotic solutions for turbulent plumes. Journal of Fluid Mechanics 699, pages 489-499.
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. 2012. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 3129 3580 .
M. F. El-Amin, S. Sun, W. Heidemann & H. Müller-Steinhagen. (2010) Analysis of a turbulent buoyant confined jet modeled using realizable k–ɛ model. Heat and Mass Transfer 46:8-9, pages 943-960.
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P.H. Thomas & M.A. Delichatsios. (2007) Notes on the similarity of turbulent buoyant fire plumes with large density variations. Fire Safety Journal 42:1, pages 43-50.
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Ho-Keun Kim & Yong-Mo Kim. (2005) Flame Length Characteristic for Varying Nozzle Diameter to Develop Oxy-Fuel Combustor. Transactions of the Korean Society of Mechanical Engineers B 29:7, pages 861-867.
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. 2005. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 101 150 .
M. Poreh, H.P. Morgan, N.R. Marshall & R. Harrison. (1998) Entrainment by two-dimensional spill plumes. Fire Safety Journal 30:1, pages 1-19.
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G. G. Rooney & P. F. Linden. (2006) Similarity considerations for non-Boussinesq plumes in an unstratified environment. Journal of Fluid Mechanics 318:-1, pages 237.
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M.A. Delichatsios. (1993) Transition from momentum to buoyancy-controlled turbulent jet diffusion flames and flame height relationships. Combustion and Flame 92:4, pages 349-364.
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M.A. Pivovarov, H. Zhang, D.E. Ramaker, P.A. Tatem & F.W. Williams. (1993) Similarity solutions in buoyancy-controlled turbulent diffusion flame modeling (turbulent buoyant diffusion flame modeling). Combustion and Flame 92:3, pages 308-319.
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A. K. Gupta. (1992) Fire Plume—Theories and Their Analysis. Journal of Applied Fire Science 2:4, pages 269-298.
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M.A. Delichatsios. (1987) Air entrainment into buoyant jet flames and pool fires. Combustion and Flame 70:1, pages 33-46.
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H.‐Z. You. (2004) An investigation of fire plume impingement on a horizontal ceiling. 1—Plume region. Fire and Materials 8:1, pages 28-39.
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G. Santo & M.A. Delichatsios. (1984) Effects of vitiated air on radiation and completeness of combustion in propane pool fires. Fire Safety Journal 7:2, pages 159-164.
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Ronald L. Alpert & Edward J. Ward. (1984) Evaluation of unsprinklered fire hazards. Fire Safety Journal 7:2, pages 127-143.
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Hsiang-Cheng Kung & Paraskevas Stavrianidis. (1982) Buoyant plumes of large-scale pool fires. Symposium (International) on Combustion 19:1, pages 905-912.
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Michael A. Delichatsios. (1982) Turbulent convective flows and burning on vertical walls. Symposium (International) on Combustion 19:1, pages 855-868.
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