WIND TUNNEL INVESTIGATION OF THE EFFECT OF AN EXTERNAL, VERTICAL ELECTRIC FIELD ON THE SHAPE OF ELECTRICALLY UNCHARGED RAIN DROPS.

R. Rasmussen; C. Walcek; H. R. Pruppacher; S. K. Mitra; J. Lew; V. Levizzani; P. K. Wang; U. Barth

doi:10.1175/1520-0469(1985)042<1647:AWTIOT>2.0.CO;2

WIND TUNNEL INVESTIGATION OF THE EFFECT OF AN EXTERNAL, VERTICAL ELECTRIC FIELD ON THE SHAPE OF ELECTRICALLY UNCHARGED RAIN DROPS.

R. Rasmussen, C. Walcek, H. R. Pruppacher, S. K. Mitra, J. Lew, V. Levizzani, P. K. Wang, U. Barth

National Center for Atmospheric Research

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Results are presented of a recent wind tunnel experiment in which electrically uncharged water drops of 1000-3000 mu m equivalent radius were freely suspended in the vertical air stream of the UCLA Cloud Tunnel. During their suspension, the drops were exposed to external, vertical electric fields of 0-9000 volts cm** minus **1. The change in the drop shape with drop size and with electric field strength was noted and is discussed in the light of theoretical work cited in literature which does not take into account the feedback effects between the electric forces of an external electric field and the hydrodynamic forces due to the flow past the drop. In contrast, the present wind tunnel study, documented by photographs from a 16 mm motion picture film, recorded the shape of the water drop in response to both hydrodynamic as well as electric forces.

Original language	English
Pages (from-to)	1647-1652
Number of pages	6
Journal	Journal of the Atmospheric Sciences
Volume	42
Issue number	15
DOIs	https://doi.org/10.1175/1520-0469(1985)042<1647:AWTIOT>2.0.CO;2
State	Published - 1985
Externally published	Yes

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10.1175/1520-0469(1985)042<1647:AWTIOT>2.0.CO;2

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title = "WIND TUNNEL INVESTIGATION OF THE EFFECT OF AN EXTERNAL, VERTICAL ELECTRIC FIELD ON THE SHAPE OF ELECTRICALLY UNCHARGED RAIN DROPS.",

abstract = "Results are presented of a recent wind tunnel experiment in which electrically uncharged water drops of 1000-3000 mu m equivalent radius were freely suspended in the vertical air stream of the UCLA Cloud Tunnel. During their suspension, the drops were exposed to external, vertical electric fields of 0-9000 volts cm** minus **1. The change in the drop shape with drop size and with electric field strength was noted and is discussed in the light of theoretical work cited in literature which does not take into account the feedback effects between the electric forces of an external electric field and the hydrodynamic forces due to the flow past the drop. In contrast, the present wind tunnel study, documented by photographs from a 16 mm motion picture film, recorded the shape of the water drop in response to both hydrodynamic as well as electric forces.",

author = "R. Rasmussen and C. Walcek and Pruppacher, \{H. R.\} and Mitra, \{S. K.\} and J. Lew and V. Levizzani and Wang, \{P. K.\} and U. Barth",

year = "1985",

doi = "10.1175/1520-0469(1985)042<1647:AWTIOT>2.0.CO;2",

language = "English",

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AU - Rasmussen, R.

AU - Walcek, C.

AU - Pruppacher, H. R.

AU - Mitra, S. K.

AU - Lew, J.

AU - Levizzani, V.

AU - Wang, P. K.

AU - Barth, U.

PY - 1985

Y1 - 1985

N2 - Results are presented of a recent wind tunnel experiment in which electrically uncharged water drops of 1000-3000 mu m equivalent radius were freely suspended in the vertical air stream of the UCLA Cloud Tunnel. During their suspension, the drops were exposed to external, vertical electric fields of 0-9000 volts cm** minus **1. The change in the drop shape with drop size and with electric field strength was noted and is discussed in the light of theoretical work cited in literature which does not take into account the feedback effects between the electric forces of an external electric field and the hydrodynamic forces due to the flow past the drop. In contrast, the present wind tunnel study, documented by photographs from a 16 mm motion picture film, recorded the shape of the water drop in response to both hydrodynamic as well as electric forces.

AB - Results are presented of a recent wind tunnel experiment in which electrically uncharged water drops of 1000-3000 mu m equivalent radius were freely suspended in the vertical air stream of the UCLA Cloud Tunnel. During their suspension, the drops were exposed to external, vertical electric fields of 0-9000 volts cm** minus **1. The change in the drop shape with drop size and with electric field strength was noted and is discussed in the light of theoretical work cited in literature which does not take into account the feedback effects between the electric forces of an external electric field and the hydrodynamic forces due to the flow past the drop. In contrast, the present wind tunnel study, documented by photographs from a 16 mm motion picture film, recorded the shape of the water drop in response to both hydrodynamic as well as electric forces.

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WIND TUNNEL INVESTIGATION OF THE EFFECT OF AN EXTERNAL, VERTICAL ELECTRIC FIELD ON THE SHAPE OF ELECTRICALLY UNCHARGED RAIN DROPS.

Abstract

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