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Items: 1 to 20 of 226

1.

Scaling of turbulent flame speed for expanding flames with Markstein diffusion considerations.

Chaudhuri S, Wu F, Law CK.

Phys Rev E Stat Nonlin Soft Matter Phys. 2013 Sep;88(3):033005.

PMID:
24125342
2.

Flame speed and self-similar propagation of expanding turbulent premixed flames.

Chaudhuri S, Wu F, Zhu D, Law CK.

Phys Rev Lett. 2012 Jan 27;108(4):044503.

PMID:
22400849
3.

Accelerative propagation and explosion triggering by expanding turbulent premixed flames.

Akkerman V, Chaudhuri S, Law CK.

Phys Rev E Stat Nonlin Soft Matter Phys. 2013 Feb;87(2):023008.

PMID:
23496611
4.

Spectral formulation of turbulent flame speed with consideration of hydrodynamic instability.

Chaudhuri S, Akkerman V, Law CK.

Phys Rev E Stat Nonlin Soft Matter Phys. 2011 Aug;84(2 Pt 2):026322.

PMID:
21929105
5.

Chemical kinetic model uncertainty minimization through laminar flame speed measurements.

Park O, Veloo PS, Sheen DA, Tao Y, Egolfopoulos FN, Wang H.

Combust Flame. 2016 Oct;172:136-152.

PMID:
27890938
6.

Effect of the Darrieus-Landau instability on turbulent flame velocity.

Zaytsev M, Bychkov V.

Phys Rev E Stat Nonlin Soft Matter Phys. 2002 Aug;66(2 Pt 2):026310.

PMID:
12241288
7.

Interplay of Darrieus-Landau instability and weak turbulence in premixed flame propagation.

Creta F, Lamioni R, Lapenna PE, Troiani G.

Phys Rev E. 2016 Nov;94(5-1):053102.

PMID:
27967046
8.

Design of "model-friendly" turbulent non-premixed jet burners for C2+ hydrocarbon fuels.

Zhang J, Shaddix CR, Schefer RW.

Rev Sci Instrum. 2011 Jul;82(7):074101. doi: 10.1063/1.3605491.

PMID:
21806201
9.

Velocity of turbulent flamelets with realistic fuel expansion.

Bychkov V.

Phys Rev Lett. 2000 Jun 26;84(26 Pt 1):6122-5.

PMID:
10991139
10.

Composition of reaction intermediates for stoichiometric and fuel-rich dimethyl ether flames: flame-sampling mass spectrometry and modeling studies.

Wang J, Chaos M, Yang B, Cool TA, Dryer FL, Kasper T, Hansen N, Osswald P, Kohse-Höinghaus K, Westmoreland PR.

Phys Chem Chem Phys. 2009 Mar 7;11(9):1328-39. doi: 10.1039/b815988b.

PMID:
19224033
11.

Two-dimensional imaging of soot volume fraction by the use of laser-induced incandescence.

Ni T, Pinson JA, Gupta S, Santoro RJ.

Appl Opt. 1995 Oct 20;34(30):7083-91. doi: 10.1364/AO.34.007083.

PMID:
21060570
12.

Simultaneous Burst Imaging of Dual Species Using Planar Laser-Induced Fluorescence at 50 kHz in Turbulent Premixed Flames.

Li Z, Rosell J, Aldén M, Richter M.

Appl Spectrosc. 2016 Nov 18. pii: 0003702816678866. [Epub ahead of print]

PMID:
27864444
13.

Numerical simulation of a laboratory-scale turbulent V-flame.

Bell JB, Day MS, Shepherd IG, Johnson MR, Cheng RK, Grcar JF, Beckner VE, Lijewski MJ.

Proc Natl Acad Sci U S A. 2005 Jul 19;102(29):10006-11.

14.

Pair dispersion of turbulent premixed flame elements.

Chaudhuri S.

Phys Rev E Stat Nonlin Soft Matter Phys. 2015 Feb;91(2):021001.

PMID:
25768450
15.

Importance of the Darrieus-Landau instability for strongly corrugated turbulent flames.

Bychkov V.

Phys Rev E Stat Nonlin Soft Matter Phys. 2003 Dec;68(6 Pt 2):066304.

PMID:
14754312
16.

Pattern formation of flames in radial microchannels with lean methane-air mixtures.

Kumar S, Maruta K, Minaev S.

Phys Rev E Stat Nonlin Soft Matter Phys. 2007 Jan;75(1 Pt 2):016208.

PMID:
17358236
17.
18.

Comparison and evaluation of methods for the determination of flammability limits, applied to methane/hydrogen/air mixtures.

Van den Schoor F, Hermanns RT, van Oijen JA, Verplaetsen F, de Goey LP.

J Hazard Mater. 2008 Feb 11;150(3):573-81.

PMID:
17560716
19.

Flamelet modeling of NO formation in laminar and turbulent diffusion flames.

Heyl A, Bockhorn H.

Chemosphere. 2001 Feb-Mar;42(5-7):449-62.

PMID:
11219669
20.

Turbulent viscosity and turbulent magnetic diffusivity in a decaying spin-down flow of liquid sodium.

Noskov V, Denisov S, Stepanov R, Frick P.

Phys Rev E Stat Nonlin Soft Matter Phys. 2012 Jan;85(1 Pt 2):016303.

PMID:
22400654
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