no code implementations • 17 Feb 2021 • Uddalok Sen, Charu Datt, Tim Segers, Herman Wijshoff, Jacco H. Snoeijer, Michel Versluis, Detlef Lohse
These results shed some light on the complex interplay between inertia, capillarity, and viscoelasticity for retracting liquid filaments, which is important for the stability and quality of inkjet printing of polymer solutions.
Fluid Dynamics Soft Condensed Matter
no code implementations • 27 Jan 2021 • Yanshen Li, Christian Diddens, Andrea Prosperetti, Detlef Lohse
Consequently, the effect of a stable stratification on the Marangoni instability has hitherto been ignored.
Fluid Dynamics
no code implementations • 21 Jan 2021 • Nakul Pande, Jeffery A. Wood, Guido Mul, Detlef Lohse, Bastian T. Mei, Dominik Krug
In electrochemical systems, an understanding of the underlying transport processes is required to aid in their better design.
Fluid Dynamics
1 code implementation • 19 Jan 2021 • Vatsal Sanjay, Detlef Lohse, Maziyar Jalaal
When a rising bubble in a Newtonian liquid reaches the liquid-air interface, it can burst, leading to the formation of capillary waves and a jet on the surface.
Fluid Dynamics Soft Condensed Matter
no code implementations • 4 Aug 2020 • Kai Leong Chong, Chong Shen Ng, Naoki Hori, Rui Yang, Roberto Verzicco, Detlef Lohse
Employing Lagrangian statistics, we demonstrate that the turbulent humid respiratory puff engulfs the small droplets, leading to many orders of magnitude increase in their lifetimes, implying that they can be transported much further during the respiratory events than the large ones.
Fluid Dynamics Applied Physics Computational Physics Medical Physics Physics and Society
1 code implementation • 3 May 2017 • Xiaojue Zhu, Everett Phillips, Vamsi Spandan, John Donners, Gregory Ruetsch, Josh Romero, Rodolfo Ostilla-Mónico, Yantao Yang, Detlef Lohse, Roberto Verzicco, Massimiliano Fatica, Richard J. A. M. Stevens
The AFiD code, an open source solver for the incompressible Navier-Stokes equations ({\color{blue}\burl{http://www. afid. eu}}), has been ported to GPU clusters to tackle large-scale wall-bounded turbulent flow simulations.
Fluid Dynamics