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Combustion Science and Technology Volume 78, 1991 - Issue 1-3
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Original Articles

Effects of Compressibility and Heat Release in a High Speed Reacting Mixing Layer

P. GIVI Department of Mechanical and Aerospace Engineering, State University of New York, Buffalo, NY, 14260
,
C. K. MADNIA Department of Mechanical and Aerospace Engineering, State University of New York, Buffalo, NY, 14260
,
C. J. STEINBERGER Department of Mechanical and Aerospace Engineering, State University of New York, Buffalo, NY, 14260
,
M. H. CARPENTER Theoretical Flow Physics Branch, NASA Langley Research Center, Hampton, VA, 23665
&
J.P. DRUMMOND Theoretical Flow Physics Branch, NASA Langley Research Center, Hampton, VA, 23665
Pages 33-67 | Received 17 Jul 1990, Accepted 14 Mar 1991, Published online: 27 Apr 2007

Citations (40)

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F. F. GRINSTEIN & K. KAILASANATH. (1996) Exothermicity and Relaminarization Effects in Unsteady Reactive Square Jets. Combustion Science and Technology 113:1, pages 291-312.
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R. S. MILLER, C. K. MADNIA & P. GIVI. (1994) Structure of a Turbulent Reacting Mixing Layer. Combustion Science and Technology 99:1-3, pages 1-36.
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Articles from other publishers (38)

Jieli Wei, Jian An, Nana Wang, Jian Zhang & Zhuyin Ren. (2023) Velocity nonuniformity and wall heat loss coupling effect on supersonic mixing layer flames. Aerospace Science and Technology 141, pages 108545.
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S. A. Gaponov. Boundary layer stability under conditions of a heat supply into its internal area. Boundary layer stability under conditions of a heat supply into its internal area.
Qian Chen & Bing Wang. (2021) The spatial growth of supersonic reacting mixing layers: Effects of combustion mode. Aerospace Science and Technology 116, pages 106888.
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Wenwu Chen, Jianhan Liang, Lin Zhang & Qingdi Guan. (2021) A Numerical Investigation of Mixing Models in LES-FMDF for Compressible Reactive Flows. Energies 14:16, pages 5180.
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Yuping Bai, Yibo Hong, Quanbin Zhao, Weixiong Chen & Daotong Chong. (2021) Supersonic shear layer characteristics of two fluids with a splitter plate. International Journal of Advanced Nuclear Reactor Design and Technology 3, pages 1-10.
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Di Lu & Fang Chen. 2021. Proceedings of the International Conference on Aerospace System Science and Engineering 2020. Proceedings of the International Conference on Aerospace System Science and Engineering 2020 243 252 .
S. A. Gaponov. (2020) EFFECT OF HEAT SUPPLY TO A NARROW BAND OF THE BOUNDARY LAYER ON ITS STABILITY. Journal of Applied Mechanics and Technical Physics 61:5, pages 685-692.
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Xiao Yao, Jianguo Tan & Dongdong Zhang. (2019) Combustion of H2/air supersonic mixing layers with splitter plate: Growth rates and transport characteristic. Acta Astronautica 165, pages 401-413.
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HyeJin Oh & Foluso Ladeinde. (2018) Effects of Chemical Kinetic Mechanism on the DNS Results for Reactive High Speed Mixing Layers. Effects of Chemical Kinetic Mechanism on the DNS Results for Reactive High Speed Mixing Layers.
A. G. Nouri, M. B. Nik, P. Givi, D. Livescu & S. B. Pope. (2017) Self-contained filtered density function. Physical Review Fluids 2:9.
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Pedro José Martínez Ferrer, Guillaume Lehnasch & Arnaud Mura. (2017) Compressibility and heat release effects in high-speed reactive mixing layers I.: Growth rates and turbulence characteristics. Combustion and Flame 180, pages 284-303.
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Shervin Sammak, Arash G. Nouri, Michael J. Brazell, Dimitri J. Mavriplis & Peyman Givi. (2017) Discontinuous Galerkin-Monte Carlo Solver for Large Eddy Simulation of Compressible Turbulent Flows. Discontinuous Galerkin-Monte Carlo Solver for Large Eddy Simulation of Compressible Turbulent Flows.
Tomasz G. Drozda & Robert Baurle. (2016) CFD Analysis of Mixing Characteristics of Several Fuel Injectors at Hypervelocity Flow Conditions. CFD Analysis of Mixing Characteristics of Several Fuel Injectors at Hypervelocity Flow Conditions.
Pietro Ferrero, Anand Kartha, Pramod K. Subbareddy, Graham V. Candler & Paul Dimotakis. (2013) LES of a high-Reynolds number, chemically reacting mixing layer. LES of a high-Reynolds number, chemically reacting mixing layer.
Foluso Ladeinde. (2009) A Critical Review of Scramjet Combustion Simulation (Invited). A Critical Review of Scramjet Combustion Simulation (Invited).
Andrea Zambon, Atheya Sriram & Harsha Chelliah. (2007) Development and Implementation of Explicit Reduced Reaction Models in Supersonic Reacting Shear Flow Simulations. Development and Implementation of Explicit Reduced Reaction Models in Supersonic Reacting Shear Flow Simulations.
Guanghai Wang & Sean C. Garrick. (2005) Modeling and Simulation of Titania Synthesis in Two-dimensional Methane–air Flames. Journal of Nanoparticle Research 7:6, pages 621-632.
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S. Modem, S.C. Garrick, M.R. Zachariah & K.E.J. Lehtinen. (2002) Direct numerical simulation of nanoparticle coagulation in a temporal mixing layer. Proceedings of the Combustion Institute 29:1, pages 1071-1077.
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Fernando Grinstein. (2001) CFD for non-premixed jet combustion, a perspective. CFD for non-premixed jet combustion, a perspective.
Luo Kai. (2011) Some Recent Findings on Turbulent Diffusion Flames from DNS. ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik 81:S3, pages 545-546.
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F. A. Jaberi, D. Livescu & C. K. Madnia. (2000) Characteristics of chemically reacting compressible homogeneous turbulence. Physics of Fluids 12:5, pages 1189-1209.
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Shin-Juh Chen, Werner J.A. Dahm & Gretar Tryggvason. (2000) Effects of heat release in a reacting vortex ring. Proceedings of the Combustion Institute 28:1, pages 515-520.
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K.H. Luo. (1999) Combustion effects on turbulence in a partially premixed supersonic diffusion flame. Combustion and Flame 119:4, pages 417-435.
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Foluso Ladeinde, Wei Liu & Edward O'Brien. (1999) DNS evaluation of chemistry models for turbulent, reacting, and compressible mixing layers. DNS evaluation of chemistry models for turbulent, reacting, and compressible mixing layers.
M. Pino Martı́n & Graham V. Candler. (1998) Effect of chemical reactions on decaying isotropic turbulence. Physics of Fluids 10:7, pages 1715-1724.
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Marios Soteriou & Junhui Cai. (1998) Flame-vortex interaction in the near field of exothermic jets. Flame-vortex interaction in the near field of exothermic jets.
Marios C. Soteriou. (1998) Flow-combustion interactions in the near field of high Damköhler number non-premixed exothermic jets. Symposium (International) on Combustion 27:1, pages 1213-1219.
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K.H. Luo & K.N.C. Bray. (1998) Combustion-induced pressure effects in supersonic diffusion flames. Symposium (International) on Combustion 27:2, pages 2165-2171.
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Julian Tishkoff & Julian Tishkoff. (1997) Future research directions for turbulent combustion. Future research directions for turbulent combustion.
Jason Norris, Jack Edwards, Jason Norris & Jack Edwards. (1997) Large-eddy simulation of high-speed, turbulent diffusion flames with detailed chemistry. Large-eddy simulation of high-speed, turbulent diffusion flames with detailed chemistry.
F. Ladeinde, E. E. O'Brien & X. D. Cai. (1996) A parallelized eno procedure for direct numerical simulation of compressible turbulence. Journal of Scientific Computing 11:3, pages 179-205.
Crossref
Thierry Poinsot. (1996) Using direct numerical simulations to understand premixed turbulent combustion. Symposium (International) on Combustion 26:1, pages 219-232.
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G Balakrishnan, S Sarkar & F Williams. (1995) Direct numerical simulation of diffusion flames with large heat release in compressible homogeneous turbulence. Direct numerical simulation of diffusion flames with large heat release in compressible homogeneous turbulence.
J Lee. (1995) An application of a two-equation model of turbulence to three dimensional chemically reacting flows. An application of a two-equation model of turbulence to three dimensional chemically reacting flows.
F.F. Grinstein & K. Kailasanath. (1995) Three-dimensional numerical simulations of unsteady reactive square jets. Combustion and Flame 100:1-2, pages 2-10.
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J. Lee. (1994) Numerical study of mixing in supersonic combustors with hypermixing injectors. Journal of Propulsion and Power 10:3, pages 297-304.
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J. Philip Drummond & Peyman Givi. 1994. Combustion in High-Speed Flows. Combustion in High-Speed Flows 191 229 .
CRAIG STEINBERGER. (1992) Model free simulations of a high speed reacting mixing layer. Model free simulations of a high speed reacting mixing layer.

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