Latest papers in fluid mechanics
Author(s): Simon J. Haward, Jacob Page, Tamer A. Zaki, and Amy Q. Shen
Experimental evidence is presented for the existence of critical layers in inertioelastic shear flows over wavy surfaces, where theory predicts amplification of the spanwise vorticity.
[Phys. Rev. Fluids 3, 091302(R)] Published Fri Sep 21, 2018
Scaling laws of top jet drop size and speed from bubble bursting including gravity and inviscid limit
Author(s): Alfonso M. Gañán-Calvo
Scaling laws are proposed for the size and the velocity of the droplet which is ejected when a bubble rises to a free surface and bursts. These new scalings consistently incorporate the effect of gravity and the limit of negligible viscosity of the liquid.
[Phys. Rev. Fluids 3, 091601(R)] Published Thu Sep 20, 2018
Author(s): Sidharth GS, Anubhav Dwivedi, Graham V. Candler, and Joseph W. Nichols
An investigation shows that laminar supersonic flow on a 2D compression corner can destabilize to become 3D beyond a critical turn angle. This compressible instability resides in the recirculating flow, producing spiral wall flow patterns postseparation and wall temperature streaks downstream.
[Phys. Rev. Fluids 3, 093901] Published Wed Sep 19, 2018
Large-eddy simulation of turbulent flow over spanwise-offset barchan dunes: Interdune vortex stretching drives asymmetric erosion
Author(s): Chao Wang and William Anderson
The coupling between turbulent flow physics and barchan dune geometry is important to dune migration, morphology of individual dunes, and the morphodynamics of merging and separating proximal dunes. Large-eddy simulation was used to model turbulent, inertial-dominated flow over a series of static ba...
[Phys. Rev. E 98, 033112] Published Tue Sep 18, 2018
Turbulent/nonturbulent interfaces in high-resolution direct numerical simulation of temporally evolving compressible turbulent boundary layers
Author(s): Xinxian Zhang, Tomoaki Watanabe, and Koji Nagata
Turbulent-nonturbulent interfaces are studied in temporally evolving subsonic and supersonic turbulent boundary layers by comparing the results of direct numerical simulations with the entrainment model based on a single vortex and the theory for spatially evolving boundary layers.
[Phys. Rev. Fluids 3, 094605] Published Tue Sep 18, 2018
Author(s): Fengjian Jiang, Bjørnar Pettersen, Helge I. Andersson, Jongmin Kim, and Sungtae Kim
The wake behind a concave, curved cylinder configuration is investigated at different Reynolds numbers. Distinctly different wake flow regimes were observed in the computed flow field, including oblique vortex shedding and dislocations. The crucial influence of a straight vertical extension is explored.
[Phys. Rev. Fluids 3, 094804] Published Tue Sep 18, 2018
Author(s): Igor Vigdorovich
We consider freely decaying two-dimensional homogeneous and isotropic turbulent motion in a self-similar limit that is achieved at large Reynolds numbers based on time and the mean kinetic energy of the flow provided that initial average enstrophy tends to infinity as fluid viscosity tens to zero. I...
[Phys. Rev. E 98, 033110] Published Mon Sep 17, 2018
Large-eddy simulation and Reynolds-averaged Navier-Stokes modeling of a reacting Rayleigh-Taylor mixing layer in a spherical geometry
Author(s): Brandon E. Morgan, Britton J. Olson, Wolfgang J. Black, and Jacob A. McFarland
Tenth-order compact difference code Miranda is used to perform large-eddy simulation (LES) of a hydrogen gas–plastic mixing layer in a spherical geometry. Once the mixing layer has achieved self-similar growth, it is heated to 1 keV, and the second-order arbitrary Lagrangian-Eulerian (ALE) code Ares...
[Phys. Rev. E 98, 033111] Published Mon Sep 17, 2018
Author(s): Fan Zhang, Arnaud Erriguible, Théo Gavoille, Michaël T. Timko, and Samuel Marre
Inertial breakup modes are identified at microscale for co-flowing jets using a high-pressure mixer.
[Phys. Rev. Fluids 3, 092201(R)] Published Mon Sep 17, 2018
Author(s): William A. Sirignano
A normal compressive shock with upstream pressure from 10 to 500 bar is analyzed for density, enthalpy, entropy, and velocity with nitrogen, oxygen, argon, and carbon dioxide. New descriptions for sound speed, Prandtl’s relation, the Rankine-Hugoniot relation, and Riemann invariants are presented.
[Phys. Rev. Fluids 3, 093401] Published Mon Sep 17, 2018
Visualization and analysis of magnetothermal convection of paramagnetic liquid in the Rayleigh-Benard model
Author(s): Syou Maki, Noriyuki Hirota, and Masayuki Hagiwara
We examined the heat transfer of magnetothermal convection in a Rayleigh-Benard model (height 9.2 mm, vessel diameter 20 mm, aspect ratio 2.17). The working fluid was an aqueous gadolinium nitrate solution of 0.15 mol/kg (pH=4.52 at 305.5 K, paramagnetic substance). Not only the magnetic body force ...
[Phys. Rev. E 98, 033109] Published Wed Sep 12, 2018
Author(s): L. Biferale, G. Boffetta, A. A. Mailybaev, and A. Scagliarini
Three-dimensional direct numerical simulations of Rayleigh-Taylor turbulence with various initial unstable temperature distributions finds a modified self-similar mixing in the long term.
[Phys. Rev. Fluids 3, 092601(R)] Published Wed Sep 12, 2018
Author(s): Carole Planchette, Sylvain Petit, Hannes Hinterbichler, and Günter Brenn
The collisions of a drop stream with an immiscible jet are experimentally studied revealing the formation of several complex structures classified in four main regimes. When neither the drops nor the jet fragment,“drops in jet” are observed that could be hardened to produce advanced fibers.
[Phys. Rev. Fluids 3, 093603] Published Wed Sep 12, 2018
Author(s): Tobias Baier, Sudarshan Tiwari, Samir Shrestha, Axel Klar, and Steffen Hardt
At large Knudsen numbers a Janus particle in a thermal gradient shows a preferred orientation. The interplay between rotational diffusion and thermophoretic motion is investigated.
[Phys. Rev. Fluids 3, 094202] Published Wed Sep 12, 2018
Author(s): Scott Strednak, Saif Shaikh, Jason E. Butler, and Élisabeth Guazzelli
Fibers in suspension migrate towards the center of the pipe where they are more aligned with the flow. The migration depends on the fraction of the volume of the suspension swept out by the rotating fibers.
[Phys. Rev. Fluids 3, 091301(R)] Published Mon Sep 10, 2018
Author(s): S. Boury, B. Thiria, R. Godoy-Diana, G. Artana, J. E. Wesfreid, and J. D'Adamo
The Stuart-Landau reduced order model is tested with experimental data from the wake of a cylinder wake forced by plasma actuators, finding an important role played by the changing mean flow.
[Phys. Rev. Fluids 3, 091901(R)] Published Mon Sep 10, 2018
Entrainment model for fully-developed wind farms: Effects of atmospheric stability and an ideal limit for wind farm performance
Author(s): Paolo Luzzatto-Fegiz and Colm-cille P. Caulfield
A new model of wind farm aerodynamics establishes an upper bound for power density, which is an order of magnitude larger than achieved by contemporary turbine arrays. The model also provides a one-equation prediction for the output of existing wind farms, and can include atmospheric stability.
[Phys. Rev. Fluids 3, 093802] Published Mon Sep 10, 2018
Author(s): Ryan P. Jones, Austin B. Isner, Hongyi Xiao, Julio M. Ottino, Paul B. Umbanhowar, and Richard M. Lueptow
Particles differing in size or density segregate in dense granular flows. In bidisperse mixtures, the sinking (small or heavy) species concentration that maximizes the segregation flux is <50% and decreases with increasing size or density ratio, matching a classic kinetic-sieving model.
[Phys. Rev. Fluids 3, 094304] Published Mon Sep 10, 2018
Extremes, intermittency, and time directionality of atmospheric turbulence at the crossover from production to inertial scales
Author(s): E. Zorzetto, A. D. Bragg, and G. Katul
A study of how the interplay between mechanical and buoyant production of turbulent kinetic energy affects fully developed atmospheric turbulent flows finds impacts both on the frequency of extreme scalar fluctuations and on the time-directional properties of scalar Eulerian measurements.
[Phys. Rev. Fluids 3, 094604] Published Mon Sep 10, 2018
Author(s): Farooq Ahmad Bhat and Arghya Samanta
The linear stability analysis of a fluid flow down a slippery inclined plane is carried out when the free surface of the fluid is contaminated by a monolayer of insoluble surfactant. The aim is to extend the earlier study [Samanta et al., J. Fluid Mech. 684, 353 (2011)] for low to high values of the...
[Phys. Rev. E 98, 033108] Published Fri Sep 07, 2018