Your search keyword '"Delville, J.-P."' showing total 6 results

1. Gas spreading on a heated wall wetted by liquid

Author

Garrabos, Y, Lecoutre-Chabot, C, Hegseth, J, Nikolayev, Vadim, Beysens, D, and Delville, J. -P

Subjects

Physics - Fluid Dynamics, Condensed Matter - Soft Condensed Matter

Abstract

This study deals with a simple pure fluid whose temperature is slightly below its critical temperature and whose density is nearly critical, so that the gas and liquid phases coexist. Under equilibrium conditions, such a liquid completely wets the container wall and the gas phase is always separated from the solid by a wetting film. We report a striking change in the shape of the gas-liquid interface influenced by heating under weightlessness where the gas phase spreads over a hot solid surface showing an apparent contact angle larger than 90{\textdegree}. We show that the two-phase fluid is very sensitive to the differential vapor recoil force and give an explanation that uses this nonequilibrium effect. We also show how these experiments help to understand the boiling crisis, an important technological problem in high-power boiling heat exchange., Comment: Physical Review E : Statistical, Nonlinear, and Soft Matter Physics, American Physical Society, 2001

Published

2016

2. Investigation of the small-scale statistics of turbulence in the Modane S1MA wind tunnel

Author

Bourgoin, M., Baudet, C., Kharche, S., Mordant, N., Vandenberghe, T., Sumbekova, S., Stelzenmuller, N., Aliseda, A., Gibert, M., Roche, P.-E., Volk, R., Barois, T., Caballero, M. Lopez, Chevillard, L., Pinton, J.-F., Fiabane, L., Delville, J., Fourment, C., Bouha, A., Danaila, L., Bodenschatz, E., Bewley, G., Sinhuber, M., Segalini, A., Örlü, R., Torrano, I., Mantik, J., Guariglia, D., Uruba, V., Skala, V., Puczylowski, J., and Peinke, J.

Published

2018

3. POD-Galerkin advection model for convective flow: application to a flapping rectangular supersonic jet

Author

Jaunet, V., Collin, E., and Delville, J.

Published

2016

4. Thermal Marangoni trapping driven by laser absorption in evaporating droplets for particle deposition

Author

Goy, N.-A., primary, Bruni, N., additional, Girot, A., additional, Delville, J.-P., additional, and Delabre, U., additional

Published

2022

5. Experimental and numerical study of laser-induced secondary jetting.

Author

Cerbus, R. T., Chraibi, H., Tondusson, M., Petit, S., Soto, D., Devillard, R., Delville, J. P., and Kellay, H.

Subjects

LASER plasmas, BUBBLE dynamics, LIQUID surfaces, FEMTOSECOND pulses, PRINT materials

Abstract

The generation of liquid jets and drops using tightly focused femtosecond laser pulses near a liquid-air interface is a convenient contactless solution for printing functional materials as well as bio-materials. Jets and drops emerge following the nucleation of a cavitation bubble in the liquid bulk by a laser-induced plasma. During the initial expansion of the bubble, a thin and fast jet is produced at the liquid surface. Moments later a second thick and slow jet emanates from the surface when the bubble has nearly deflated. Despite potential applications, little is known about the mechanism behind this complex phenomenology. Here, experiments and simulations are used to investigate this two-jet process. Counter-intuitively, the second jet is not the result of bubble expansion, as with the first jet, but originates from the secondary flows induced by the bubble dynamics. Our study links the second jet properties to the control parameters of the problem and establishes a phase diagram for its emergence. [ABSTRACT FROM AUTHOR]

Published

2022

6. Conical Interfaces between Two Immiscible Fluids Induced by an Optical Laser Beam

Author

Girot, A., primary, Petit, J., additional, Saiseau, R., additional, Guérin, T., additional, Chraibi, H., additional, Delabre, U., additional, and Delville, J. P., additional

Published

2019