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Article Dans Une Revue Review of Scientific Instruments Année : 2023

Controlled spherical deuterium droplets as Lagrangian tracers for cryogenic turbulence experiments

Résumé

The study of the smallest scales of turbulence by (Lagrangian) particle tracking faces two major challenges: the requirement of a 2D or 3D optical imaging system with sufficiently high spatial and temporal resolution and the need for particles that behave as passive tracers when seeded into the flow. While recent advances in the past decade have led to the development of fast cameras, there is still a lack of suitable methods to seed cryogenic liquid helium flows with mono-disperse particles of sufficiently small size, of the order of a few micrometers, and a density close enough to that of helium. Taking advantage of the surface tension, we propose two different techniques to generate controlled liquid spherical droplets of deuterium over a liquid helium bath. The first technique operates in a continuous mode by fragmenting a liquid jet, thanks to the Rayleigh–Taylor instability. This results in the formation of droplets with a diameter distribution of 2 ± 0.25DN, where DN is the diameter of the jet nozzle (DN = 20 μm in the present experiment). This method offers a high production rate, greater than 30 kHz. The second technique operates in a drop-on-demand mode by detaching droplets from the nozzle using pressure pulses generated using a piezoelectric transducer. This approach yields a much narrower diameter distribution of 2.1 ± 0.05DN but at a smaller production rate, in the range 500 Hz–2 kHz. The initial trajectories and shapes of the droplets, from the moment they are released from the nozzle until they fall 3 mm below, are investigated and discussed based on back-light illumination images.
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Dates et versions

cea-04248192 , version 1 (18-10-2023)

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Clément Bret, Jérôme Chartier, Pantxo Diribarne, Jérôme Duplat, Bernard Rousset. Controlled spherical deuterium droplets as Lagrangian tracers for cryogenic turbulence experiments. Review of Scientific Instruments, 2023, 94 (10), pp.105114. ⟨10.1063/5.0167132⟩. ⟨cea-04248192⟩
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