An interferometry method for confined 2D binary droplets in a humidity-controlled environment enables high-res measurement of drying kinetics and internal concentration fields to characterize drying and transport in complex fluids.
Editors' suggestion: https://t.co/IZWTwQTTMr
Gravity-driven discharge of dry particles through an aperture displays behavior that is deceptively similar to fluids yet governed by entirely different physics #CoolVideo
https://t.co/aFXQVVh02o
A simple tilt can drastically change the behavior of a liquid thread on a wire. Adjusting the angle of the wire at a fixed flow rate causes transitions from Rayleigh-Plateau to droplet drop-off, showing how geometry alone tunes the instability.
https://t.co/b45xqvBDIU
Fog on a window after a breath mostly evaporates, but some tiny droplets remain. Experiments show that larger droplets grow as smaller ones shrink, following classic Ostwald ripening. A mean field model accurately predicts these dynamics.
Read the Letter: https://t.co/Al4bMr07a2
How can machine learning in fluid dynamics deepen our understanding of flow physics and expand its applications? A new perspective article explores key challenges and highlights the importance of open datasets, open-source tools, and training.
Read more: https://t.co/fzuBCJ79ld
📢 PRFluids Editors' suggestion: Gel-like skins that form on drying porous materials delay evaporation. By accounting for pore size gradients and viscosity-dependent vapor pressure, a new model predicts the evaporation slowdown observed in experiments.
https://t.co/OxbQZmS308
Contact line dynamics in capillary tubes are notoriously hard to model. A phase-field approach with a novel formulation of boundary wetting conditions captures equilibrium states, wetting transitions, thin films, and pinch-off events, matching experiments.
https://t.co/uDnxwk6sMq
A new constitutive law for viscous stresses in two-phase flows, derived from continuum mechanics and interface conditions, accurately captures experimental observations of exchange flows in a pipe and outperforms traditional ad-hoc models.
Read more at https://t.co/dvSf7VCjlX
📢 PRFluids Editors' suggestion: How does a droplet split between two fibers? At specific angles, near-complete transfer from one fiber to the other is possible, highlighting how soft metamaterials can be harnessed to control liquid transport.
Read more at https://t.co/fPRn5q2RAU
Solute transport in porous media is often modeled with constant dispersivity, but is this valid for shear-thinning fluids? Al-Qenae et al. show that the viscosity varies across pore spaces, enhancing dispersion, and present a model that accounts for it
🔗 https://t.co/BEx97VbyF1
New Volume of Journal of Fluid Mechanics available on Cambridge Core https://t.co/00RszE4TBi
New Volume = New Cover
📸 (A24) The effect of shear-thinning on the scalings and small-scale structures of
turbulence Guo, R. and Yang, Y. https://t.co/dv8ZGe1tl3
Immiscible fluid interfaces destabilize during invasion in porous media. Brodin et al. use 3D imaging to show that, depending on flow rate, the interface transitions from stable sheets to unstable fingers, bridging 2D theory with complex 3D behavior.
🔗 https://t.co/0TpH2zRJk7
🗓️✏️ From the April issue
(1) https://t.co/0bPL00xWwR
(2) https://t.co/ABfXKpTVFu
(3) https://t.co/qeoPBg5C56
(4) https://t.co/0fYx0dNZoU
Have a look at the full issue from the last month here https://t.co/0QL4MITzj4
#fluiddynamics
Are you interested in a postdoc in fluid mechanics/ 3d printing/ soft robotics/ active matter... This call might be for you https://t.co/KWExpMmi5B
Reach out if interested, I am now in Belgium @KU_Leuven
📢 PRFluids Editors' suggestion: How does oil get trapped in microscale pores during water invasion? McBride et al. show that higher oil viscosity and water speed cause more trapping, due to a transition from meniscus displacement to viscous fingering.
🔗 https://t.co/IZZSAPonAp
When active droplets squeeze through increasingly narrow microchannels, their shape changes from spherical to capsule-like, and the hydrodynamic signature shifts from symmetric, quadrupolar to an asymmetric velocity field.
More, by Guchhait et al., at https://t.co/2jZJVMqPxZ
Tuning droplet motion in deformable non-parallel channels. Our recent work by PhD student Haiyi Zhong appeared as
@ACSPublications Langmuir #MyACSCover
https://t.co/lFThua5qpi
Clarke and Woods will discuss their paper, “Experiments on buoyancy-driven instability ahead of a dissolution front in a porous rock” (https://t.co/wqEEuC4qSo) at the PR Fluids Journal Club on Monday, March 31 (3pm GMT, 10am ET, 7am PT). Register here: https://t.co/r6mKDS13N0