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Title: Brownian relaxation of an inelastic sphere in air

Journal Article · · Physics of Fluids
DOI:https://doi.org/10.1063/1.4953151· OSTI ID:22598958
 [1]
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  1. University of Sydney, Sydney, NSW 2006 (Australia)

The procedures that are used to calculate the forces and moments on an aerodynamic body in the rarefied gas of the upper atmosphere are applied to a small sphere of the size of an aerosol particle at sea level. While the gas-surface interaction model that provides accurate results for macroscopic bodies may not be appropriate for bodies that are comprised of only about a thousand atoms, it provides a limiting case that is more realistic than the elastic model. The paper concentrates on the transfer of energy from the air to an initially stationary sphere as it acquires Brownian motion. Individual particle trajectories vary wildly, but a clear relaxation process emerges from an ensemble average over tens of thousands of trajectories. The translational and rotational energies in equilibrium Brownian motion are determined. Empirical relationships are obtained for the mean translational and rotational relaxation times, the mean initial power input to the particle, the mean rates of energy transfer between the particle and air, and the diffusivity. These relationships are functions of the ratio of the particle mass to an average air molecule mass and the Knudsen number, which is the ratio of the mean free path in the air to the particle diameter. The ratio of the molecular radius to the particle radius also enters as a correction factor. The implications of Brownian relaxation for the second law of thermodynamics are discussed.

OSTI ID:
22598958
Journal Information:
Physics of Fluids, Vol. 28, Issue 6; Other Information: (c) 2016 Author(s); Country of input: International Atomic Energy Agency (IAEA); ISSN 1070-6631
Country of Publication:
United States
Language:
English

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
42 ENGINEERING
AEROSOLS
AIR
ATMOSPHERES
BROWNIAN MOVEMENT
ELASTICITY
ENERGY TRANSFER
EQUILIBRIUM
KNUDSEN FLOW
MASS
MEAN FREE PATH
MOLECULES
PARTICLES
POWER INPUT
RELAXATION
SEA LEVEL
SPHERES
SURFACES
THERMODYNAMICS
TRAJECTORIES