Analysis and Applied Mathematics Seminar
David Ambrose
Drexel University
A convergent boundary integral method for 3D interfacial flow with surface tension
Abstract: In this talk, we will discuss the initial value problem for 3D interfacial fluid flow with surface tension.
We will emphasize the case in which the fluid velocities are given by Darcy's Law; this can serve as a
model for intefacial flow in a porous medium. We will discuss a well-posedness proof for the problem,
with the initial data in Sobolev spaces. We will also discuss a non-stiff numerical method; this
is similar in spirit to the method of Hou, Lowengrub, and Shelley for the corresponding 2D problem.
Finally, we will give some of the details of a convergence proof for a variant of this numerical method;
this convergence proof requires estimates which are similar in spirit to the estimates required to
demonstrate well-posedness. While convergence proofs for boundary integral methods had been
developed previously for 2D flows with or without surface tension or for 3D flows without surface
tension, this is the first convergence result for a boundary integral method for a 3D flow with
surface tension. The results discussed include joint work with Yang Liu, Nader Masmoudi, Michael
Siegel, and Svetlana Tlupova.
Monday April 4, 2016 at 4:00 PM in SEO 636