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Object tracking based droplet characterization of high flowrate electrospray

Electrospray was applied to the wet electrostatic precipitator to reduce the water consumption of high-efficiency fine dust collection. The size of droplets must be large to avoid evaporating quickly under high temperature exhaust gas conditions, so a high flow rate condition of several milliliters/...

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Published in:	Physics of fluids (1994) 2023-03, Vol.35 (3)
Main Authors:	Jung, Minkyu, Kim, Soyeon, Ku, Donik, Bae, Soojin, Seo, Gijeong, Kim, Man Cheol, Kim, Minsung
Format:	Article
Language:	English
Subjects:	Bias Droplets Dust control Electric potential Electrospraying Electrostatic precipitators Exhaust gases Flow velocity High speed cameras High temperature Image processing Precipitators Spraying Tracking Voltage Water consumption
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container_title	Physics of fluids (1994)
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creator	Jung, Minkyu Kim, Soyeon Ku, Donik Bae, Soojin Seo, Gijeong Kim, Man Cheol Kim, Minsung
description	Electrospray was applied to the wet electrostatic precipitator to reduce the water consumption of high-efficiency fine dust collection. The size of droplets must be large to avoid evaporating quickly under high temperature exhaust gas conditions, so a high flow rate condition of several milliliters/min is used, which is relatively high compared with previous applications. Because a high flow rate electrospray has a wide spray range and a low spray density, image-based droplet size measurement was used. A bias in the probability in the distribution occurs because of the difference in velocity between the droplets. In this study, an approach with object tracking was suggested to eliminate the bias from velocity differences. High flow rate electrospray droplets under various voltage conditions were visualized with a high-speed camera. Based on the image processing, the corrected distribution was characterized, and the effect of the bias was established through comparison with the general distribution. In addition, the spray pattern and the droplet distribution according to the applied voltage of three spraying modes were analyzed. Improved analysis of the actual spray using this approach will guide the selection of operating conditions that optimize dust collection efficiency.
doi_str_mv	10.1063/5.0139222
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source	American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list); AIP Digital Archive
subjects	Bias Droplets Dust control Electric potential Electrospraying Electrostatic precipitators Exhaust gases Flow velocity High speed cameras High temperature Image processing Precipitators Spraying Tracking Voltage Water consumption
title	Object tracking based droplet characterization of high flowrate electrospray
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