Hubert R. Plumlee scite author profile

Hubert R. Plumlee

4Publications

21Citation Statements Received

13Citation Statements Given

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Cloud droplet collision efficiency in electric fields

Plumlee¹,

Semonin²

2012

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A mathematical model describing the effects of forces acting on two spherical droplets immersed in a viscous medium is described. The model includes the interaction of the droplets with an externally applied electric field. The collision efficiencies between pairs of droplets ranging in size from 5 to 70 microns in radius are given as results of computations of the grazing trajectories of the smaller droplets relative t o the larger drops in electric fields up to 10,000 volts per centimeter.The collision efficiency for a given pair of droplets increases as the applied electric field increases. For example the collision efficiency of a 30 micron drop in relation to a 5 micron droplet increases 34.5 times when the horizontal field is changed from 0 to 3 600 volts per centimeter. Results of calculations are given to show how collision efficiencies vary as the orientation of the electric field is varied in relation t o the axis of droplet motion. The results show that the maximum and minimum collision efficiencies occur with field orientations of 90 and 42 degrees respectively.

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Collision efficiency of charged cloud droplets in electric fields

Semonin¹,

Plumlee²

1966

J. Geophys. Res.

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Collision efficiencies are shown for 5‐ and 10‐micron droplets colliding with 30‐, 40‐, and 50‐micron drops. The charge on the drop is always positive, but the sign of the charge on the droplet is alternately positive and negative. The magnitude of the charge on the droplet extends from zero to 10−14 coulomb. The calculations are also extended to include electric field intensities of 0, 900, 2100, and 3600 v/cm oriented at angles of 0°, 90°, and 180° with respect to the direction of fall of the drop. The electrical effects were found to influence collision efficiencies only when the droplet charges were greater than about 10−16 coulomb or when the electric field intensity exceeded 900 v/cm. The pertinence of the calculations to the physics of electrified clouds is briefly discussed.

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Cloud droplet collision efficiency in electric fields

Plumlee¹,

Semonin²

1965

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A mathematical model describing the effects of forces acting on two spherical droplets immersed in a viscous medium is described. The model includes the interaction of the droplets with an externally applied electric field. The collision efficiencies between pairs of droplets ranging in size from 5 to 70 microns in radius are given as results of computations of the grazing trajectories of the smaller droplets relative to the larger drops in electric fields up to 10,000 volts per centimeter. The collision efficiency for a given pair of droplets increases as the applied electric field increases. For example the collision efficiency of a 30 micron drop in relation to a 5 micron droplet increases 34.5 times when the horizontal field is changed from 0 to 3600 volts per centimeter. Results of calculations are given to show how collision efficiencies vary as the orientation of the electric field is varied in relation to the axis of droplet motion. The results show that the maximum and minimum collision efficiencies occur with field orientations of 90 and 42 degrees respectively.

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Effects of Electrostatic Forces on Drop Collision and Coalescence in Air

Plumlee¹

1964

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Hubert R. Plumlee

Cloud droplet collision efficiency in electric fields

Collision efficiency of charged cloud droplets in electric fields

Cloud droplet collision efficiency in electric fields

Effects of Electrostatic Forces on Drop Collision and Coalescence in Air

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