David Deepwell

About

I develop software to aggregate, manage, and monitor large volumes of research data. Previously, I conducted research on environmental fluid mechanics relating to sedimentation of particle clusters, transport by internal solitary waves, and solitary wave shoaling. At the end of the day, I want to build practical tools that make the world a better place.

Past Research

Particle Sedimentation

ISW Shoaling

Mode-2 ISW mass transport

ISW with constrictions

Radial ISW

Rotation & Mode-2 ISW

Numerical Projects

plus some other notes

SPINS development

SPINS analysis functions for MATLAB

Friendly Playoff Hockey Pool

UWaterloo Fluids Wiki page

Two-layer shallow water model

Publications

Marek Stastna, David Deepwell, and Andrew Grace. Shear instability in mode-2 internal kelvin waves. Environmental Fluid Mechanics, 2022.

David Deepwell and Bruce R. Sutherland. Cluster formation during particle settling in stratified fluid. Physical Review Fluids, 7:014302, 2022.

Bruce, R. Sutherland, Brianna Mueller, Brendan Sjerve, David Deepwell, Particle settling from constant-flux surface gravity currents and a near-stationary particle-bearing layer, Physical Review Fluids, 6:063802, 2021.

David Deepwell, Raphael Ouillon, Eckart Meiburg, Bruce, R. Sutherland, Settling of a particle pair through a sharp, miscible density interface, Physical Review Fluids, 6:044304, 2021.

David Deepwell, Cameron Clarry, Christopher Subich, and Marek Stastna. Vortex Generation Due to Internal Solitary Wave Propagation Past a Side Wall Constriction. Journal of Fluid Mechanics, 913, A47, 2021.

David Deepwell, Raphael Sapede, Liam Buchart, Gordon E. Swaters and Bruce R. Sutherland. Particle Transport and Resuspension by Shoaling Internal Solitary Waves. Physical Review Fluids, 5:054303, 2020.

David Deepwell, Marek Stastna, Magda Carr, and Peter A. Davies. Wave generation through the interaction of a mode-2 internal solitary wave and a broad, isolated ridge. Physical Review Fluids, 4:094802, 2019.

Chengzhu Xu, Marek Stastna, and David Deepwell. Spontaneous instability in internal solitary-like waves. Physical Review Fluids, 4:014805, 2019.

David Deepwell, Marek Stastna, and Aaron Coutino. Multi-scale phenomena of rotation-modied mode-2 internal waves. Nonlinear Processes in Geophysics, 25(1):217-231, 2018.

David Deepwell, Marek Stastna, Magda Carr, and Peter A. Davies. Interaction of a mode-2 internal solitary wave with narrow isolated topography. Physics of Fluids, 29(7):076601, 2017.

David Deepwell and Marek Stastna. Mass transport by mode-2 internal solitary-like waves. Physics of Fluids, 28(5):056606, 2016.

David Deepwell, Darren C. Peets, Colin J. S. Truncik, Natalie C. Murphy, Malcolm P. Kennett, Wendell A. Huttema, Ruixing Liang, Doug A. Bonn, Walter N. Hardy, and David M. Broun. Microwave conductivity and super fluid density in strongly overdoped Tl2Ba2CuO6+. Physical Review B, 88:214509, 2013.

Contact Me!

I might be in the mountains
so drop me an email