<div dir="ltr"><br clear="all"><div><div dir="ltr" class="gmail_signature" data-smartmail="gmail_signature"><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><div><br></div></div></div></div></div></div></div></div><div class="gmail_quote"><p><b><img alt="SDSU_CSRC Logo.jpg" width="534px" height="107px" src="cid:dd86fad8-f727-4e72-9bca-f13bd56f44c7"><br></b></p><p><b><br><font color="#ff0000" size="4">**** Registration is required in order to get the link to join the seminar online. Please register at the below web page.</font></b></p><p><br></p><p><font size="4">DATE: <br><b>Friday, May 7, 2021</b></font></p><p><br></p><div dir="ltr"><p></p><p></p><p><font size="4">TITLE:<br><b>Non-Local Models for Modeling Multiphase Fluids</b> </font> <b> </b> <b> </b> <b> </b> </p><div><br></div><p><font size="4">TIME: <br><b>3:30-5:00PM</b></font></p><p> <br></p><p><font size="4">LOCATION:<br><b>Registration is required in advance. Please register at the following site to receive information on how to join the seminar online. </b><a href="https://zoom.us/meeting/register/tJMpceqtqjsiGtBUtiTAjfSDcAaIsJ924G4s" target="_blank">Meeting Registration - Zoom</a></font></p><p><br><font size="4">SPEAKER/BIO: <br></font><b><font size="4">Dr. Amanda Howard, Mathematician, Advanced computing, mathematics, and data, Pacific Northwest National Laboratory</font> </b> <b> </b> <b> </b> </p><p><br></p><p><font size="4">ABSTRACT:</font></p></div><div dir="ltr"><p><font size="4">This talk will introduce non-local mathematical models for two phase (fluid/fluid and fluid/solid) systems. We will discuss the mathematical basis of non-local models, and their role in modeling non Newtonian fluids where local models cannot capture all effects. First, we propose a non-local model for surface tension obtained in the form of an integral of a molecular-force-like function added to the Navier Stokes momentum conservation equation for multiphase fluid flows. We demonstrate that our model recovers both microscale and macroscale features of multiphase flow, eliminating the need for expensive hybrid MD-NS models, and provides strong advantages for modeling multiphase flows at length scales not feasible with MD simulations. Next, we extend the physics-informed neural network (PINN) method to learn a non-local viscosity model for a suspension of spherical particles using only velocity measurements. The PINN-inferred viscosity models agree with the empirical models for shear rates with large absolute values but deviate for shear rates near zero where the analytical models have an unphysical singularity.<br></font></p><p><font size="4">Bio: Amanda Howard is a mathematician at Pacific Northwest National Laboratory. Her research interests include numerical methods for multiphase flows, including surface tension models and models for fluid/solid flows, and physics-informed machine learning. She received her PhD in 2018 from Brown University in Applied Mathematics, where she was an NSF Graduate Research Fellow and received the Graduate Student Contribution to Community Life Award for her contributions towards increasing diversity within the mathematics community at Brown.</font></p></div><div dir="ltr"><br></div><div dir="ltr"><br></div><font size="4">Host:<br><b>Marta Miletic, Civil, Construction, and Environmental Engineering, San Diego State University</b></font><br><div><br><br></div><div><p><font size="4"><span style="font-weight:bold">Note:</span><span style="font-weight:bold"> </span>Videos of previous colloquium talks can be seen on the CSRC website in the colloquium archive section or on the <a href="https://www.youtube.com/channel/UCN0ZEztlmyDqG2pm-Rle_Eg/feed" target="_blank">CSRC YouTube page here</a>.</font></p><p><br><br></p></div><br>
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