Barton Dahneke scite author profile

A numerical technique has been used to determine the free-molecule drag on a straight chain of uniform spheres moving parallel and perpendicular to its axis. For such a concave-shaped body, certain surface elements are inaccessible to molecules having certain velocity components because these areas are screened by neighboring elements. Likewise, reflected molecules do not always escape directly but may experience more than one reflection due to screening by neighboring elements. Because an analytical solution for the drag seems hopelessly complex, we have used a Monte Carlo method to determine the rate of momentum transfer (drag force) due to the molecular collisions and reflections of large numbers of molecules by following their individual dynamics. The results are discussed in terms of the translation of straight chains having fixed orientation, straight chains undergoing Brownian rotations, and branched and kinked chains.

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Slip correction factors for nonspherical bodies—II free molecule flow

Dahneke¹

1973

Journal of Aerosol Science

132

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Further measurements of the bouncing of small latex spheres

Dahneke

1975

Journal of Colloid and Interface Science

135

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Barton Dahneke

The capture of aerosol particles by surfaces

Slip correction factors for nonspherical bodies—III the form of the general law

Free-molecule drag on straight chains of uniform spheres

Slip correction factors for nonspherical bodies—II free molecule flow

Further measurements of the bouncing of small latex spheres

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