NDLI: Performance Evaluation of a Novel Pilot-Scale Wet Electrostatic Precipitator in a Bio-Drying-Assisted Solid Recovered Fuel (SRF) Generation Plant: Particulate Matter (PM) Collection Efficiency

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Performance Evaluation of a Novel Pilot-Scale Wet Electrostatic Precipitator in a Bio-Drying-Assisted Solid Recovered Fuel (SRF) Generation Plant: Particulate Matter (PM) Collection Efficiency

Content Provider	MDPI
Author	Kim, Min-Sang Jo, Hongmok Park, Yeongmi Han, Uijeong Thapa, Ajay Kim, Kyunghyun Choi, Du Hyeong Park, Gwang Jo Cho, Si-Kyung
Copyright Year	2022
Description	The production of solid recovered fuel (SRF) from sewage sludge has been credited with facilitating Korea’s waste management shift toward a resource circular economy. In this study, a novel pilot-scale wet electrostatic precipitator (WESP) was developed and installed in a bio-drying-assisted solid recovered fuel (SRF) generation plant for the first time. To investigate the performance of the novel WESP, various sizes of particulate matter, i.e., total particle matter (PM), particle matter smaller than 10 μm $(PM_{10}$), and particle matter smaller than 0.1 μm $(PM_{0.1}$), collection efficiencies were evaluated and demonstrated promising performances. Under optimal operating conditions (flow rate of 5 $m^{3}$/min and an applied voltage of 30 kV), 99.76% PM and 91% $PM_{10}$ collection efficiencies were achieved, and the PM concentration was 0.16 $mg/m^{3}$, which met the exhaust emission standard. However, a dramatic increase in $PM_{0.1}$ was observed and could be explained by the break-up theory, binary homogenous nucleation, and ion-induced nucleation. The experimental findings could serve as useful information to understand the WESP system.
Starting Page	8702
e-ISSN	20711050
DOI	10.3390/su14148702
Journal	Sustainability
Issue Number	14
Volume Number	14
Language	English
Publisher	MDPI
Publisher Date	2022-07-15
Access Restriction	Open
Subject Keyword	Sustainability Environmental Engineering Wet Electrostatic Precipitator Particulate Matter Collection Efficiency Sewage Sludge Solid Recovered Fuel
Content Type	Text
Resource Type	Article

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