Search
Skip to Search Results- 1Agrawal, Yogesh K
- 1Amiri, Mohammad Saeid
- 1Azadi, Reza
- 1Baliga, Chinmay R
- 1Boyer, Henry R.
- 1Clark, Heather A
- 10Department of Mechanical Engineering
- 9Department of Chemical and Materials Engineering
- 5Department of Physics
- 3Department of Civil and Environmental Engineering
- 2Department of Mathematical and Statistical Sciences
- 1Department of Civil Engineering
- 3Hayes, Robert (Chemical and Materials Engineering)
- 2Nikrityuk, Petr (Chemical and Materials Engineering)
- 2Pogosyan, Dmitri (Physics)
- 1Bowman, John C. (Mathematical and Statistical Sciences)
- 1Chalaturnyk, Rick (Civil and Environmental Engineering)
- 1David, Nobes (Department of Mechanical Engineering)
-
Spring 2011
The presence of hydrodynamically generated air bubbles has been observed to enhance fine particle flotation in a high intensity agitation (HIA) flotation cell. In this study, the cavitation in an HIA cell, used in our laboratory, is studied by hydrodynamic computational fluid dynamics. Different...
-
Fall 2011
Turbulence is a chaotic motion of fluid that can be described by the Navier--Stokes equations or even highly simplified shell models. Under the continuum limit, standard shell models of turbulence are shown to reduce to a common evolution equation that reproduces many predictions of the...
-
Nonlinear Evolution of Localized Internal Gravity Wave Packets: Theory and Simulations with Rotation, Background Flow, and Anelastic Effects
DownloadFall 2023
A series of three studies investigates theoretically and numerically the evolution, stability, and pseudomomentum transport of fully localized three-dimensional internal gravity wave packets, as they self-interact nonlinearly with their induced mean flow. The first study considers a rotating,...
-
Fall 2020
In modern cosmology, many efforts have been put to detect primordial B-mode of cosmic microwave background polarization from the gravitational waves generated during inflation. Considering the foreground dust contamination of microwave polarization maps, it is essential to obtain a precise...
-
Fall 2017
It has been well known that turbulent motions are ubiquitous in the interstellar medium. These motions are very important in governing various astrophysical processes like star formation. Both observational and numerical studies are important to understand turbulent motions, and a gap between...
-
Fall 2018
This work contains investigations relevant for the study of catalytic chemical reactors using the detailed microkinetics approach, with the intent of improving the prediction of the product distribution. The study is comprised of two main topics. The first one consists of an investigation of...
-
Fall 2016
There are numerous examples of dispersed turbulent two-phase flows in engineering and environmental processes. In particular, dispersed solid-liquid flows, also known as slurry flows, have many industrial applications such as transportation of coal, ore, and oil sands. Slurry transportation...