Effect of Humidity on Charge Decay in Varying Atmospheric Gases

Effect of Humidity on Charge Decay in Varying Atmospheric Gases

Characterization of surface charge decay for varying materials - PTFE, Acrylic, and metals - of 100 mm diameter, radially symmetric bodies was performed. In a gaseous environment, charged materials will lose their charge depending on gas type, humidity, and other environmental factors. Eventually, t...

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Bibliographic Details
Published in:2021 IEEE Pulsed Power Conference (PPC) pp. 1 - 5
Main Authors: Cardenas, Zachary, Esser, Ben, Aponte, Ivan, Dickens, James, Mankowski, John, Stephens, Jacob, Friesen, Donald, Nelson, Crystal, Koone, Neil, Hattz, David, Neuber, Andreas
Format: Conference Proceeding
Language:English
Published: IEEE 12-12-2021
Subjects:
Charge carriers
Charge decay
dielectric surface charge
Electric potential
Humidity
Ions
Metals
Surface resistance
Voltage
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Summary:Characterization of surface charge decay for varying materials - PTFE, Acrylic, and metals - of 100 mm diameter, radially symmetric bodies was performed. In a gaseous environment, charged materials will lose their charge depending on gas type, humidity, and other environmental factors. Eventually, the charge will be (1) neutralized by ions or electrons in the surrounding gas (2) distributed by conduction on the material surface or in its volume (3) or neutralized by ions or electrons in the material surface and volume. Metal and polymer samples are charged to a known potential in the tens of kilovolts range, and the decaying voltage is monitored with a non-contact probe until the potential reaches near zero. Humidity has an impact on both groups of materials. As a baseline, in air at 42% relative humidity in an enclosed chamber, a positive charge equivalent to 20 kV potential on a metal sphere of 50 mm radius decays to near zero within 25 minutes. In contrast, the same sphere negatively charged decays slightly faster within 20 minutes. Overall, the humidity has a significant effect on the charge decay time, such that an order of magnitude longer times (hours) are observed at low humidity. Effects of chamber size were also studied, drawing a connection to charge carriers in the air available for decay, with chambers of volume(s): 3.3 10 5 cm 3 and 1.4 10 6 cm 3 , respectively.
ISSN:2158-4923
DOI:10.1109/PPC40517.2021.9733134