Edward Santilli

About

My research interests lie in the development of accurate, stable, and efficient algorithms to numerically model geophysical fluid flows. Geophysical fluid dynamics presents several challenges that currently make a complete model computationally intractable or physically unreliable. Each facet of my research tends to address one or both of these issues in an effort to better understand energy propagation and transformation in the ocean.

Work

Thomas Jefferson University

Associate Professor

Aug 2015

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Present

School District of Philadelphia

Mathematics Teacher

Sep 2004

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Jun 2008

Publications

The Stratified Ocean Model with Adaptive Refinement (SOMAR)

Jan 2025

Published by

Zenodo

Summary

software

Numerical simulations of a Minimal Ocean Mixing Systems (MOMS)

Jan 2021

Published by

APS Division of Fluid Dynamics Meeting Abstracts

Summary

conference-paper

Estimating pressure and internal-wave flux from laboratory experiments in focusing internal waves

Jan 2020

Published by

Experiments in Fluids

Summary

journal-article

Pressure and wave-flux optical analysis of 3D focusing internal waves compared between laboratory experiments and SOMAR

Jan 2020

Published by

Bulletin of the American Physical Society

Summary

conference-paper

Large eddy simulations of turbulent oceanic flows

Jan 2018

Published by

Bulletin of the American Physical Society

Summary

conference-paper

SOMAR-LES: A framework for multi-scale modeling of turbulent stratified oceanic flows

Jan 2017

Published by

Ocean Modeling

Summary

journal-article

SOMAR-LES: A framework for multi-scale modeling of turbulent stratified oceanic flows

Jan 2017

Published by

Ocean Modeling

Summary

journal-article

The Stratified Ocean Model with Adaptive Refinement (SOMAR)

Jan 2015

Published by

J. Comput. Phys.

Summary

journal-article

An efficient method for solving highly anisotropic elliptic equations

Jan 2011

Published by

J. Comput. Phys.

Summary

journal-article