We present an experimental study of single porous spheres settling in a near two-layer ambient density fluid. Data are compared with a first-principle model based on diffusive processes. The model correctly predicts accelerations of the sphere but does not capture the retention time at the density transition quantitatively. Entrainment of lighter fluid through a shell encapsulating the sphere is included in this model empirically. With this parametrization, which exhibits a power law dependence on Reynolds numbers, retention times are accurately captured. Extrapolating from our experimental data, model predictions are presented
Sharp density stratifications occur naturally in the ocean, and play a important role in the dynamic...
Marine snow is central to the marine carbon cycle, and quantifying its small-scale settling dynamics...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...
We present an experimental study of single porous spheres settling in a near two-layer ambient densi...
This dissertation presents results on the effects of sharp density variations in the dynamics of set...
Downward carbon flux in the ocean is largely governed by particle settling. Most marine particles se...
The settling velocity of porous particles in linear stratification is affected by the diffusive exch...
Downward carbon flux in the ocean is largely governed by particle settling. Most marine particles se...
The settling of marine snow, which is a dominant form of settling particulate organic carbon (POC), ...
The settling velocity of porous particles in linear stratification is affected by the diffusive exch...
We present a combined experimental and numerical investigation of a sphere settling in a linearly st...
A sphere falling through a stable stratification of miscible fluids exhibits a prolonged settling ra...
We simulate flows involving porous media and homogenous fluid using a single-domain finite-differenc...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mathematics, 2008.Includes bibliogr...
Stratification due to salt or heat gradients greatly affects the distribution of inert particles and...
Sharp density stratifications occur naturally in the ocean, and play a important role in the dynamic...
Marine snow is central to the marine carbon cycle, and quantifying its small-scale settling dynamics...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...
We present an experimental study of single porous spheres settling in a near two-layer ambient densi...
This dissertation presents results on the effects of sharp density variations in the dynamics of set...
Downward carbon flux in the ocean is largely governed by particle settling. Most marine particles se...
The settling velocity of porous particles in linear stratification is affected by the diffusive exch...
Downward carbon flux in the ocean is largely governed by particle settling. Most marine particles se...
The settling of marine snow, which is a dominant form of settling particulate organic carbon (POC), ...
The settling velocity of porous particles in linear stratification is affected by the diffusive exch...
We present a combined experimental and numerical investigation of a sphere settling in a linearly st...
A sphere falling through a stable stratification of miscible fluids exhibits a prolonged settling ra...
We simulate flows involving porous media and homogenous fluid using a single-domain finite-differenc...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mathematics, 2008.Includes bibliogr...
Stratification due to salt or heat gradients greatly affects the distribution of inert particles and...
Sharp density stratifications occur naturally in the ocean, and play a important role in the dynamic...
Marine snow is central to the marine carbon cycle, and quantifying its small-scale settling dynamics...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...