A theoretical analysis of the effects of an electric field on the charging of fine particles

A theoretical analysis of the effects of an electric field on the charging of fine particles

Recent measurements of charge imparted to fine particles by unipolar ions in a strong electric field have shown that this charge is appreciably higher than that predicted by previous theoretical analyses. The charge acquired by fine particles is due primarily to ions which strike the particle by vir...

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Bibliographic Details
Published in:Transactions of the American Institute of Electrical Engineers. Part 1. Communication and electronics Vol. 78; no. 4; pp. 318 - 326
Main Authors: Murphy, Arthur T., Adler, Felix T., Penney, Gaylord W.
Format: Journal Article
Language:English
Published: American Institute of Electrical Engineers 01-09-1959
Subjects:
Distribution functions
Electric fields
Electron mobility
Equations
Finite difference methods
Ions
Potential energy
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Summary:Recent measurements of charge imparted to fine particles by unipolar ions in a strong electric field have shown that this charge is appreciably higher than that predicted by previous theoretical analyses. The charge acquired by fine particles is due primarily to ions which strike the particle by virtue of their random heat motion. Previous analyses have assumed that the only field existing was that due to the charge on the particles, thus neglecting any external field which would be present in a corona discharge. Two effects of an external field which influence charging are critically examined: 1. Ions or electrons which travel in the direction of the external field toward the particle will acquire energy in addition to their heat energy. Their increase in energy will allow these elementary particles to overcome more readily the potential field of the charged particle. This effect is shown to be small for molecular ions at atmospheric pressure except for only the very smallest particles but, for charging by free electrons, which have a much longer mean free path, the effect could cause a large increase in charge. 2. The presence of an external field will alter the density distribution of ions around the charged particle since this field opposes the particle field on one side of the particle and aids it on the other side. The general equation for the ion density distribution was not able to be solved. However, approximate finite difference methods using computing machinery show that this effect is important and may almost completely account for the higher charge found with molecular ion charging.
ISSN:0097-2452
2379-674X
DOI:10.1109/TCE.1959.6372822