Olivier Vauquelin scite author profile

The hydrodynamic force experienced by a small spherical particle undergoing an arbitrary time-dependent motion in a weakly density-stratified fluid is investigated theoretically. The study is carried out under the Oberbeck-Boussinesq approximation and in the limit of small Reynolds and small Péclet numbers. The force acting on the particle is obtained by using matched asymptotic expansions. In this approach, the small parameter is given by a/ℓ, where a is the particle radius and ℓ is the stratification length, as defined by Ardekani & Stocker (2010), which depends on the Brunt-Väisälä frequency, on the fluid kinematic viscosity and on the thermal or the concentration diffusivity (depending on the case considered). The matching procedure used here, which is based on series expansions of generalized functions, slightly differs from that generally used in similar problems. In addition to the classical Stokes drag, it is found that the particle experiences a memory force given by two convolution products, one of which involves, as usual, the particle acceleration and the other one, the particle velocity. Owing to the stratification, the transient behaviour of this memory force, in response to an abrupt motion, consists of an initial fast decrease followed by a damped oscillation with an angular-frequency corresponding to the Brunt-Väisälä frequency. The perturbation force eventually tends to a constant which provides us with correction terms that should be added to the Stokes drag to accurately predict the settling time of a particle in a diffusive stratified-fluid.

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Smoke extraction experiments in case of fire in a tunnel

Vauquelin

Megret

2002

Fire Safety Journal

128

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Definition and experimental evaluation of the smoke “confinement velocity” in tunnel fires

Vauquelin

Telle

2005

Fire Safety Journal

110

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