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Combustion Science and Technology Volume 58, 1988 - Issue 4-6
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Original Articles

A One-Dimensional Model of a Pulse Combustor

P. K. Barr Sandia National Laboratories, Livermore, CA, 94550
,
H. A. Dwyer Sandia National Laboratories, Livermore, CA, 94550
&
T. T. Bramlette Sandia National Laboratories, Livermore, CA, 94550
Pages 315-336 | Received 17 Feb 1987, Accepted 14 Sep 1987, Published online: 16 Apr 2007

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I. Zbiciński, I. Smucerowicz, C. Strumiłło, J. Kasznia, J. Stawczyk & K. Murlikiewicz. (1999) OPTIMIZATION AND NEURAL MODELLING OF PULSE COMBUSTORS FOR DRYING APPLICATIONS. Drying Technology 17:3, pages 610-631.
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THOMAS MOREL. (1993) Comprehensive Model of a Pulse Combustor. Combustion Science and Technology 94:1-6, pages 379-409.
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ISMAIL CELIK, WEIMING ZHANG, JAMESL. SPENIK & GARYJ. MORRIS. (1993) One-Dimensional Modeling and Measurement of Pulsating Gas-Solid Flow in Tubes. Combustion Science and Technology 94:1-6, pages 353-378.
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J. O. KELLER, R A. EIBECK, T. T. BRAMLETTE & P K. BARR. (1993) Pulse Combustion: Tailpipe Exit Jet Characteristics*. Combustion Science and Technology 94:1-6, pages 167-192.
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R. S. GEMMEN, J. O. KELLER & V. S. ARPACI. (1993) Heat/Mass Transfer from a Cylinder in the Strongly Oscillating Flow of a Pulse Combustor Tailpipe. Combustion Science and Technology 94:1-6, pages 103-130.
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J. O. Keller, P. K. Barr, T. T. Bramletie, L. J. Evens & R. N. Marchant. (1989) Pulse Combustion: Demonstration of the Characteristic Mixing Time in a Commercial Burner. Combustion Science and Technology 66:1-3, pages 127-137.
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Articles from other publishers (24)

Said MA Ibrahim, Mohamed R Taha & Mahmoud N Elqammash. (2022) The Influence of Design Geometry on the Operational Performance of Helmholtz Pulse Combustor. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 237:12, pages 2915-2924.
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Marian Gieras & Adrian Trzeciak. (2023) A new approach to the phenomenon of pulsed combustion. Experimental Thermal and Fluid Science 144, pages 110845.
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Said M A Ibrahim, Mohamed R Taha & Mahmoud N Elqammash. (2023) An experimental study of NO x emissions from a Helmholtz resonator . Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, pages 095440622311548.
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Stefan Heidinger, Felix Spranger, Jakub Dostál, Chunliang Zhang & Christian Klaus. (2022) Material Treatment in the Pulsation Reactor—From Flame Spray Pyrolysis to Industrial Scale. Sustainability 14:6, pages 3232.
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Ireneusz Zbicinski, Tadeusz Kudra & Xiangdong Liu. 2014. Modern Drying Technology. Modern Drying Technology 27 56 .
Ireneusz Zbicinski, Tadeusz Kudra & Xiangdong Liu. 2014. Modern Drying Technology. Modern Drying Technology 27 56 .
Olga Terlyga, Hamid Bellout & Frederick Bloom. (2012) Global Existence, Uniqueness, and Stability for a Nonlinear Hyperbolic-Parabolic Problem in Pulse Combustion. Acta Mathematica Scientia 32:1, pages 41-74.
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David R. GreatrixDavid R. Greatrix. 2012. Powered Flight. Powered Flight 125 146 .
Frederick Bloom, Olga Terlyga & Timothy Patterson. (2010) Perturbation analysis of self-sustained oscillations in a pulse combustion model. Nonlinear Analysis: Real World Applications 11:4, pages 2314-2334.
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Frederick Bloom & Timothy Patterson. (2009) The effect of tailpipe friction on pressure and velocity oscillations in a nonlinear, lumped parameter, pulse combustor model. Nonlinear Analysis: Real World Applications 10:5, pages 3002-3017.
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Frederick Bloom, Frederick Ahrens & Tim Patterson. (2005) The nonlinear dynamical system generated by the AKT pulse combustor model. Nonlinear Analysis: Theory, Methods & Applications 63:5-7, pages 891-901.
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Ali Kilicarslan. (2005) Frequency evaluation of a gas-fired pulse combustor. International Journal of Energy Research 29:5, pages 439-454.
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Sridhar Thyageswaran. (2004) Numerical modeling of pulse combustor tail pipe heat transfer. International Journal of Heat and Mass Transfer 47:12-13, pages 2637-2651.
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K. Tajiri & S. Menon. (2001) LES of combustion dynamics in a pulse combustor. LES of combustion dynamics in a pulse combustor.
Stephen B. Margolis. 1995. Modeling in Combustion Science. Modeling in Combustion Science 193 205 .
Stephen B. Margolis. (1994) Resonant Mode Interactions and the Bifurcation of Combustion-Driven Acoustic Oscillations in Resonance Tubes. SIAM Journal on Applied Mathematics 54:6, pages 1594-1633.
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Stephen B. Margolis. (1994) The nonlinear dynamics of intrinsic acoustic oscillations in a model pulse combustor. Combustion and Flame 99:2, pages 311-322.
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Stephen B. Margolis. (2006) Nonlinear stability of combustion-driven acoustic oscillations in resonance tubes. Journal of Fluid Mechanics 253:-1, pages 67.
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STEPHEN MARGOLIS. (1993) Nonlinear stability of combustion-driven acoustic oscillations in resonance tubes. Nonlinear stability of combustion-driven acoustic oscillations in resonance tubes.
Stephen B. Margolis. (1992) Stability of acoustic oscillations in a model helmholtz-type pulse combustor. Symposium (International) on Combustion 24:1, pages 19-27.
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Ismail Celik & Yi-Zun Wang. (1991) Pulsating gas-solid flow inside a bench-scale reactor. Combustion and Flame 84:3-4, pages 225-237.
Crossref
John E. Dec, Jay O. Keller & Ichiro Hongo. (1991) Time-resolved velocities and turbulence in the oscillating flow of a pulse combustor tail pipe. Combustion and Flame 83:3-4, pages 271-292.
Crossref
P.K. Barr, J.O. Keller, T.T. Bramlette, C.K. Westbrook & J.E. Dec. (1990) Pulse combustor modeling demonstration of the importance of characteristic times. Combustion and Flame 82:3-4, pages 252-269.
Crossref
J.O. Keller & I. Hongo. (1990) Pulse combustion: The mechanisms of NOx production. Combustion and Flame 80:3-4, pages 219-237.
Crossref

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