TY - JOUR
T1 - Influence of pulse-jet cleaning pressure on performance of compact dust collector with pleated filter operated in clean-on-time mode
AU - Furumoto, Kazuki
AU - Fukasawa, Tomonori
AU - Ishigami, Toru
AU - Irwan Fatkhur Rozy, Mohammad
AU - Kuo, Hsiu Po
AU - Huang, An Ni
AU - Fukui, Kunihiro
N1 - Publisher Copyright:
© 2022 The Society of Powder Technology Japan
PY - 2022/8
Y1 - 2022/8
N2 - To operate a bag filter continuously, pulse-jet cleaning of dust particles from the filter medium is commonly required, and the pulse-jet pressure significantly affects the filter performance. In this study, the accumulation structure of residual dust particles inside and on the surface of a filter medium at different pulse-jet pressures was investigated by constructing a simple model, and the influence of the dust structure on the filter performance was clarified. Using a simple model, we determined the effective ratio of filtration area β, which represents the ratio of the filterable area to the total filtration area, the true resistance coefficient due to the primary dust layer ζp’ thinly deposited on the filter surface, and the true resistance coefficient inside the filter media itself ζf’. The effective ratio of filtration area β decreased with operation time for all pulse-jet pressures; however, it maintained a high value when the pulse-jet pressure was high. The validity of β analyzed by the model was verified using two different methods, and the results showed good agreement, indicating that the model is effective in identifying real conditions. The true resistance coefficient due to the primary dust layer ζp’ decreased as the pulse-jet pressure increased; however, the true resistance coefficient inside the filter media itself ζf’ was the highest at 0.5 MPa. In addition, the dust collection efficiency was different at each pulse-jet pressure, which was considered to be caused by the difference in the dust particle accumulation structure.
AB - To operate a bag filter continuously, pulse-jet cleaning of dust particles from the filter medium is commonly required, and the pulse-jet pressure significantly affects the filter performance. In this study, the accumulation structure of residual dust particles inside and on the surface of a filter medium at different pulse-jet pressures was investigated by constructing a simple model, and the influence of the dust structure on the filter performance was clarified. Using a simple model, we determined the effective ratio of filtration area β, which represents the ratio of the filterable area to the total filtration area, the true resistance coefficient due to the primary dust layer ζp’ thinly deposited on the filter surface, and the true resistance coefficient inside the filter media itself ζf’. The effective ratio of filtration area β decreased with operation time for all pulse-jet pressures; however, it maintained a high value when the pulse-jet pressure was high. The validity of β analyzed by the model was verified using two different methods, and the results showed good agreement, indicating that the model is effective in identifying real conditions. The true resistance coefficient due to the primary dust layer ζp’ decreased as the pulse-jet pressure increased; however, the true resistance coefficient inside the filter media itself ζf’ was the highest at 0.5 MPa. In addition, the dust collection efficiency was different at each pulse-jet pressure, which was considered to be caused by the difference in the dust particle accumulation structure.
KW - Filtration area
KW - Pleated filter
KW - Pressure drop
KW - Pulse-jet pressure
KW - True resistance coefficient
UR - http://www.scopus.com/inward/record.url?scp=85131790688&partnerID=8YFLogxK
U2 - 10.1016/j.apt.2022.103602
DO - 10.1016/j.apt.2022.103602
M3 - 文章
AN - SCOPUS:85131790688
SN - 0921-8831
VL - 33
JO - Advanced Powder Technology
JF - Advanced Powder Technology
IS - 8
M1 - 103602
ER -