Physical Review Fluids
Author(s): Axel Brandenburg, Tina Kahniashvili, Sayan Mandal, Alberto Roper Pol, Alexander G. Tevzadze, and Tanmay Vachaspati
It is shown that decaying helical turbulence amplifies a weak magnetic field, which then itself becomes helical. However, it displays a transient behavior different from any other helical or nonhelical magnetic decaying field in a parametric representation between the temporal scaling exponents p(t) and q(t).
[Phys. Rev. Fluids 4, 024608] Published Fri Feb 22, 2019
Author(s): Paul A. Jarvis, Heidy M. Mader, Herbert E. Huppert, Katharine V. Cashman, and Jon D. Blundy
Experiments on the low-Reynolds number settling of a sphere through a fluid interface focus on the effect of the viscosity ratio and Bond number on the shape of the sphere position curve as a function of time, whether sinking occurs through a tailing or film drainage mode and the sinking timescale.
[Phys. Rev. Fluids 4, 024003] Published Wed Feb 20, 2019
Author(s): M. Rubio, A. Ponce-Torres, E. J. Vega, M. A. Herrada, and J. M. Montanero
High speed observations are made of the pinching off of a pendant drop.
[Phys. Rev. Fluids 4, 021602(R)] Published Tue Feb 19, 2019
Author(s): S. Musacchio and G. Boffetta
Three-dimensional numerical simulations of forced turbulence in a thin layer show the transfer from the forcing to larger scales is by two-dimensional modes, and to smaller scales by three-dimensional modes, the latter providing a viscosity-independent dissipation.
[Phys. Rev. Fluids 4, 022602(R)] Published Tue Feb 19, 2019
Author(s): Sparsh Sharma and Ennes Sarradj
A genetic algorithm is used to optimally populate a random flow with two-dimensional Gaussian-shaped vortices subject to certain constraints.
[Phys. Rev. Fluids 4, 022701(R)] Published Tue Feb 19, 2019
Author(s): Shunlin Tang, Robert A. Antonia, Lyazid Djenidi, and Yu Zhou
Analytical considerations, based on the Navier-Stokes equations, which take into account the finite Reynolds number effect, together with all available experimental laboratory data, confirm a tendency towards the universal predictions of K41 as the Reynolds number continues to increase.
[Phys. Rev. Fluids 4, 024607] Published Tue Feb 19, 2019
Assessment of two vortex formulations for computing forces of a flapping foil at high Reynolds numbers
Author(s): A. Martín-Alcántara and R. Fernandez-Feria
Impulse-based vortex formulas are found appropriate for computing propulsion forces from experiments only when the vortices remain close to the moving foil, as in starting motions or in hovering flight, but are inaccurate in forward flight or swimming, where projection methods perform much better.
[Phys. Rev. Fluids 4, 024702] Published Tue Feb 19, 2019
Author(s): D. Freire, L. G. Sarasúa, A. Vernet, S. Varela, G. Usera, C. Cabeza, and A. C. Martí
Experiments show that the separation between two spheres settling down in viscoelastic shear-thinning solutions exhibit two different regimes depending on the fluids’ rheological properties. The existence of a previously reported elusive regime is corroborated.
[Phys. Rev. Fluids 4, 023302] Published Fri Feb 15, 2019
Shape factor of the turbulent boundary layer on a flat plate and the Reynolds shear stress in the outer region
Author(s): P. Phani Kumar and J. Dey
From the linear equation for the velocity defect in the outer boundary layer, the product of mean wall normal velocity and free stream velocity is shown to vary linearly with the Reynolds shear stress.
[Phys. Rev. Fluids 4, 024605] Published Fri Feb 15, 2019
Author(s): Ang Zhou, Joseph Klewicki, and Sergio Pirozzoli
We study the total scalar variance equation for fully developed turbulent channel ﬂow subject to uniform scalar generation. We find a total scalar variance leading balance four-layer structure similar to total kinetic energy balance. Diﬀerences in the two Karman constants, k and k_θ, are clarified.
[Phys. Rev. Fluids 4, 024606] Published Fri Feb 15, 2019
Author(s): M. Magnini, S. Khodaparast, O. K. Matar, H. A. Stone, and J. R. Thome
Long gas bubbles in a vertical tube do not rise in stagnant liquid if Bo < 0.842. An investigation shows that long bubbles rising in co-current liquid flow exhibit different asymptotic regimes at small liquid capillary numbers, as Bo transitions across this critical value.
[Phys. Rev. Fluids 4, 023601] Published Wed Feb 13, 2019
Author(s): Zunmin Zhang, Wei Chien, Ewan Henry, Dmitry A. Fedosov, and Gerhard Gompper
The application of the deterministic lateral displacement approach in microfluidics to deformability-based sorting of cells is explored. Mesoscale hydrodynamics simulations are employed to show that this requires large flow-induced cell deformation in the trajectory-distinguishing flow region.
[Phys. Rev. Fluids 4, 024201] Published Wed Feb 13, 2019
Wake characteristics of a utility-scale wind turbine under coherent inflow structures and different operating conditions
Author(s): Xiaolei Yang and Fotis Sotiropoulos
Large-eddy simulations show the similarity of turbine wakes for different tip speed ratios and suggest the coexistence of inflow large eddies and wake shear layer instability as the mechanism for the onset of wake meandering.
[Phys. Rev. Fluids 4, 024604] Published Tue Feb 12, 2019
Author(s): Nahuel Andrés and Supratik Banerjee
Using a recent alternative form of the 4/3 exact relation for fully developed hydrodynamic turbulence, the incompressible energy cascade rate ε is computed. The numerical results show that ε is in clear agreement with the cascade rates computed from the classical 4/3 law.
[Phys. Rev. Fluids 4, 024603] Published Mon Feb 11, 2019
Author(s): Thomas Dombrowski, Shannon K. Jones, Georgios Katsikis, Amneet Pal Singh Bhalla, Boyce E. Griffith, and Daphne Klotsa
An inertial swimmer comprised of two unequal spheres oscillating in antiphase generates a steady streaming, which propels the swimmer in opposite directions depending on the Reynolds number.
[Phys. Rev. Fluids 4, 021101(R)] Published Fri Feb 08, 2019
Author(s): Katherine E. Witt, S. Farzad Ahmadi, and Jonathan B. Boreyko
We observe silicone oils wicking across dendritic sheets of frost. The capillary action is found to be dependent upon both the surface orientation and the underlying surface wettability.
[Phys. Rev. Fluids 4, 024002] Published Fri Feb 08, 2019
Author(s): Sagar Zade, Walter Fornari, Fredrik Lundell, and Luca Brandt
Many large spherical particles that sediment and resuspend from the bottom of a duct under fully developed turbulent conditions are studied. Optical experiments and direct numerical simulations are compared and used to investigate turbulence modulation and organization of particles.
[Phys. Rev. Fluids 4, 024303] Published Fri Feb 08, 2019
Author(s): Jonathan Poggie and Kevin M. Porter
High-fidelity simulations show that the confining effect of sidewalls on a shock-wave/boundary-layer interaction can have a very strong influence on both the mean flow and large-scale unsteadiness, and accurately capturing the sidewall flows is essential in realistic modeling of confined flows.
[Phys. Rev. Fluids 4, 024602] Published Fri Feb 08, 2019
Characterizing vortex tangle properties in steady-state He II counterflow using particle tracking velocimetry
Author(s): Brian Mastracci and Wei Guo
The utility of particle tracking velocimetry for characterizing the quantized vortex tangle in He II thermal counterflow is shown by demonstrating measurements of vortex line spacing, the parameter c2, and vortex reconnection.
[Phys. Rev. Fluids 4, 023301] Published Thu Feb 07, 2019
Application of a self-organizing map to identify the turbulent-boundary-layer interface in a transitional flow
Author(s): Zhao Wu, Jin Lee, Charles Meneveau, and Tamer Zaki
We use the self-organizing map, an unsupervised machine learning method, to find the turbulent/nonturbulent interface in a transitional boundary layer with the help of Johns Hopkins Turbulence Databases. This method separates turbulent regions from vortical streaks and free-stream turbulence.
[Phys. Rev. Fluids 4, 023902] Published Thu Feb 07, 2019