Scaling of convective velocity in a vertically vibrated granular bed

We experimentally study the velocity scaling of granular convection which is a possible mechanism of the regolith migration on the surface of small asteroids. In order to evaluate the contribution of granular convection to the regolith migration, the velocity of granular convection under the microgr...

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Bibliographic Details
Published in:Planetary and space science 2014-10, Vol.100, p.79-86
Main Authors: Yamada, Tomoya M., Katsuragi, Hiroaki
Format: Article
Language:English
Subjects:
Acceleration
Asteroids
Control systems
Convection
Granular convection
Gravitational acceleration
Gravitational effects
Microgravity
Migration
Regolith
Regolith migration
Scaling analysis
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Summary:We experimentally study the velocity scaling of granular convection which is a possible mechanism of the regolith migration on the surface of small asteroids. In order to evaluate the contribution of granular convection to the regolith migration, the velocity of granular convection under the microgravity condition has to be revealed. Although it is hard to control the gravitational acceleration in laboratory experiments, scaling relations involving the gravitational effect can be evaluated by systematic experiments. Therefore, we perform such a systematic experiment of the vibration-induced granular convection. From the experimental data, a scaling form for the granular convective velocity is obtained. The obtained scaling form implies that the granular convective velocity can be decomposed into two characteristic velocity components: vibrational and gravitational velocities. In addition, the system size dependence is also scaled. According to the scaling form, the granular convective velocity v depends on the gravitational acceleration g as v∝g0.97 when the normalized vibrational acceleration is fixed. •The velocity scaling of granular convection is developed experimentally.•The relevant scaling parameters for granular convection are obtained.•Granular convective structure depends on the vibrational frequency than the maximum acceleration.
ISSN:0032-0633
1873-5088
DOI:10.1016/j.pss.2014.05.019