Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulence, where their motion and intermittent breakup is recorded by three-dimensional particle tracking velocimetry (3D-PTV). The aggregates have an open structure with a fractal dimension of ∼2.2, and their size is 1.4 ± 0.4 mm, which is large, compared to the Kolmogorov length scale (• = 0.15 mm). 3D-PTV of flow tracers allows for the simultaneous measurement of aggregate trajectories and the full velocity gradient tensor along their pathlines, which enables us to access the Lagrangian stress history of individual breakup events. From this data, we found no consistent pattern that relates breakup to the local flow properties at the point of brea...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...
We used video microscopy to study the behavior of aggregating suspensions in shear flow. Suspensions...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
The breakup of inertial, solid aggregates in an incompressible, homogeneous and isotropic three-dime...
Breakup of small tracer-like aggregates is studied by means of numerical simulations in four differe...
The hydrodynamic breakup of small inertial aggregates in homogenous and isotropic turbulence is stud...
By characterising the hydrodynamic stresses generated by statistically homogeneous and isotropic tur...
By characterising the hydrodynamic stresses generated by statistically homogeneous and isotropic tur...
Aggregates prepared under fully destabilized conditions by the action of Brownian motion were expose...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...
We used video microscopy to study the behavior of aggregating suspensions in shear flow. Suspensions...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
Aggregates grown in mild shear flow are released, one at a time, into homogeneous isotropic turbulen...
The breakup of inertial, solid aggregates in an incompressible, homogeneous and isotropic three-dime...
Breakup of small tracer-like aggregates is studied by means of numerical simulations in four differe...
The hydrodynamic breakup of small inertial aggregates in homogenous and isotropic turbulence is stud...
By characterising the hydrodynamic stresses generated by statistically homogeneous and isotropic tur...
By characterising the hydrodynamic stresses generated by statistically homogeneous and isotropic tur...
Aggregates prepared under fully destabilized conditions by the action of Brownian motion were expose...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...
We used video microscopy to study the behavior of aggregating suspensions in shear flow. Suspensions...
Breakup of small aggregates in fully developed turbulence is studied by means of direct numerical si...