Features of numerical simulation of multicomponent reactive mixture flows using the OpenFOAM package reactingCentralFoam solver are considered. The specifics of the construction of the project on the basis of the calculation of the combustion of the oxygen-hydrogen mixture for the conditions of the experimental setup “Penn State Pre-burner Combustor” are discussed. The results of computations of the main parameters of the combustion process are given, the efficiency of the applied solver is shown.
REFERENCES
1.
H. G.
Weller
, G.
Tabor
, H.
Jasak
, and C.
Fureby
, Computers in Physics
12
(6
), 620
–631
(1998
).2.
H.
Jasak
, H. G.
Welle
, and N.
Nordin
, SAE paper n. 2004-01-0110.
3.
C.
Fureby
, Phil. Trans. R. Soc. A
367
, 2957
(2009
).4.
M.
Chapuis
, C.
Fureby
, E.
Fedina
, N.
Alin
, and J.
Tegnér
, “Les modeling of combustion applications using openFOAM
,” in V European Conference on Computational Fluid Dynamics ECCOMAS CFD
(2010
), pp. 1
–20
.5.
M.
Kraposhin
, A.
Bovtrikova
, and S.
Strijhak
, Procedia Computer Science
66
, 43
–52
(2015
). doi: 6.
W.
Marshall
, S.
Pal
, and R.
Santoro
, AIAA Paper 2005-3572
(2005
).7.
M. P.
Burke
, M.
Chaos
, Y.
Ju
, F. L.
Dryer
, and S. J.
Klippenstein
, Int. J. Chem. Kinet.
, 1
–31
(2011
). doi: 8.
J.
Waranatz
, U.
Maas
, and R. W.
Dibble
, Combustion Physical and Chemical Fundamentals, Modelling and Simulation, Experiments, Pollution Formation
(Springer-Verlag
, Berlin, Heidelberg
, 2001
).9.
T.
Poinsot
and D.
Veynante
, Theoretical and Numerical Combustion
(Edwards
, 2005
), 538
p.10.
M.
Invigorito
, D.
Cardillo
and G.
Ranuzzi
, “Application of OpenFOAM for Rocket Design
,” in 9th OpenFOAM® Workshop
, (Zagreb, Croatia
, 2014
), pp. 1
–15
.11.
L.
Chenzhou
and C. L.
Merkle
, AIAA Paper 2010-371
(2010
).12.
S.
Thakur
et al., AIAA Paper 2012-3744
(2012
).
This content is only available via PDF.
© 2018 Author(s).
2018
Author(s)
