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UID:Baylor_CMS_Event-82159
DTSTAMP:20130525T154753Z
SUMMARY:CASPER Seminar - Adaptive Splitting Methods in Application to a Solid Fuel Ignition Model Dr. Matthew Beauregard, Department of Mathematics, Center of Atmospheric, Space and Engineering Research, Baylor University
DESCRIPTION;ENCODING=QUOTED-PRINTABLE:Various types of partial differential equations have been playing increasingly=0D=0A=
important roles in the study of theoretical and numerical combustion.=0D=0A=
The heat distribution of a premixed, solid-fuel combustor can=0D=0A=
be decoupled from the activation energy leading to a singular, nonlinear,=0D=0A=
and degenerate reaction-diffusion equation. A Peaceman-Rachford=0D=0A=
splitting based adaptive method is developed. Spatial adaptation is accomplished=0D=0A=
through modified equidistribution principles that stem from=0D=0A=
a priori solution information. This generates non-uniform exponentially=0D=0A=
evolving grids. Rigorous numerical analysis are given to ensure the satisfactory=0D=0A=
effectiveness, efficiency, and numerical stability of the developed=0D=0A=
scheme. Simulation experiments are provided to illustrate these accomplishments.=0D=0A=
A brief history is provided, while many open problems are=0D=0A=
illustrated throughout the discussion.=0D=0A=
=0D=0A=
download the flyer
LOCATION:BSB E.231
DTSTART;TZID=US_Central:20130125T133000
DTEND;TZID=US_Central:20130125T143000
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