Confined flames as gasdynamic discontinuities. (2004)
30th Internat.Symp.on Combustion, Chicago, Ill., July 25-30, 2004
A unified model of flames as gasdynamic discontinuities (2003)
Andreas G Class, B J Matkowsky, A Y Klimenko
The JFM paper is the most recent publication on asymptotic analysis of premixed flames using so called intrinsic disturbed flame equations (IDFE). IDFE not only dramatically simplified the derivation...
A unified model of flames as gasdynamic discontinuities (2003)
Class, A. G., Matkowsky, B. J., Klimenko, A. Y.
Viewed on a hydrodynamic scale, flames in experiments are often thin so that they may be described as gasdynamic discontinuities separating the dense cold fresh mixture from the light hot burned...
A unified model of flames as gasdynamic discontinuities (2003)
Andreas G Class, B J Matkowsky, A Y Klimenko
The JFM paper is the most recent publication on asymptotic analysis of premixed flames using so called intrinsic disturbed flame equations (IDFE). IDFE not only dramatically simplified the derivation...
A unified model of flames as gasdynamic discontinuities (2003)
Class, A. G., Matkowsky, B. J., Klimenko, A. Y.
Viewed on a hydrodynamic scale, flames in experiments are often thin so that they may be described as gasdynamic discontinuities separating the dense cold fresh mixture from the light hot burned...
Stability of planar flames as gasdynamic discontinuities. (2003)
Class, A.G., Matkowsky, B.J., Klimenko, A.Y.
Journal of Fluid Mechanics, 491(2003), S.51-63
A unified model of flames as gasdynamic discontinuities. (2003)
Class, A.G., Matkowsky, B.J., Klimenko, A.Y.
Journal of Fluid Mechanics, 491(2003) S.11-49
Flames in inhomogeneous mixtures as gasdynamic discontinuities. (eingeladen) (2003)
Class, A.G., Matkowsky, B.J., Maas, U., Giezendanner, R., Meier, W.
Applied Mathematics Colloquium, Northwestern University, Evanston, Ill., November 17, 2003
On Oscillatory Necking in Polymers, (2002)
Matkowsky,B. J., Sivashinsky,G. I.
Sponsored in part by Grant ER-78-S-02-4650.
Sponsored in part by Grant ER-78-S-024650. Prepared in cooperation with Rensselaer Polytechnic Inst., Troy, NY. Dept. of Mathematical Sciences.
Propagation of a Pulsating Reaction Front in Solid Fuel Combustion, (2002)
Matkowsky,B. J., Sivashinsky,G. I.
Sponsored in part by Grant ER-78-S-01-4650.
Matkowsky,B. J., Sivashinsky,G. I.
Sponsored in part by Grant ER78-S-02-4650.
On the Stability of Nonadiabatic Flames, (2002)
Sivashinsky,G. I., Matkowsky,B. J.
Sponsored in part by Grant NSF-MCS77-25660.
Sponsored in part by Grants NSF-MCS77-25660 and DE-AC02-78-ER-04560.
A New Model in Flame Theory, (2002)
Van Harten,A., Matkowsky,B. J.
Sponsored in part by Grant DE-AC02-78ERO-4650.
A unified model for flames as gasdynamic discontinuities: model and numerical implementation. (2002)
Class, A.G., Bayliss, A., Matkowsky, B.J.
Workshop on Computational Methods for Muldidimensional Reactive Flows (COMREF 2002), Heidelberg, December 2-4, 2002
Localized flickering cellular flames. (1999)
Class, A., Bayliss, A., Matkowsky, B.J.
SIAM Journal of Applied Mathematics, 59(1999) S.942-64
Structure And Dynamics Of Modulated Traveling Waves In Cellular Flames (1994)
Bayliss, A., Matkowsky, B. J., Riecke, H.
We describe spatial and temporal patterns in cylindrical premixed flames in the cellular regime, $Le < 1$, where the Lewis number $Le$ is the ratio of thermal to mass diffusivity of a deficient...
Localized ordered structures and flame stretch. (1994)
Class, A., Bayliss, A., Matkowsky, B.J.
Applied Mathematics Letters, 6(1993) Nr.5, S.3-7
CONDENSED PHASE COMBUSTION WITH A MERGED SEQUENTIAL REACTION MECHANISM (1990)
BOOTY, M. R., HOLT, J. B., MATKOWSKY, B. J.
A model is presented for the propagation of an exothermic chemical reaction through a condensed combustible mixture where the reaction is characterized by the sequential production and depletion of a...
On the validity of the geometrical theory of diffraction by convex cylinders (1969)
Matkowsky, B. J., Bloom, C. O.
In this paper we consider the scattering of a wave from an infinite line source by an infinitely long cylinder C. The line source is parallel to the axis of C , and the cross section C of this...