An experimental investigation of the PM adhesion characteristics in a fluidized bed type PM removal device

Tsuyoshi Yamamoto, Kenta Hori, June Tatebayashi

Research output: Contribution to journalArticle

5 Citations (Scopus)

Abstract

To remove PM2.5 effectively, we applied a fluidized bed to a PM2.5 removal device to take advantage of the adhesion force. An experimental study has been performed to investigate the effects of the PM diameter, PM inlet concentration and superficial gas velocity on the PM adhesion characteristics in a fluidized bed type PM2.5 removal device. The experimental results indicate that the collection efficiency of PM with a diameter of less than 2.25μm was 100% for a PM inlet concentration of several tens of mg/m3 and more than 90% at a PM inlet concentration of 100mg/m3, which is a high concentration. The collection efficiency of a PM with a diameter less than 2.25μm displays a nearly identical value under a superficial gas velocity of 0.3-0.5m/s. The reason why the collection of PM2.5 displays a higher efficiency is that the behavior of PM2.5 is mainly dominated by the adhesion force in the fluidized bed. The fluidized bed type PM2.5 removal device displays an excellent collection capacity for PM2.5. However, when the PM diameter exceeds 8.95μm, the behavior of the PM is mainly dominated by the gravity in the fluidized bed. The collection efficiency of a PM with a diameter less than 8.95μm shows approximately 60% under a PM inlet concentration of 100mg/m3 and a superficial gas velocity of 0.4m/s after 180min, decreasing with the increasing superficial gas velocity.

Original languageEnglish
Pages (from-to)31-36
Number of pages6
JournalPowder Technology
Volume289
DOIs
Publication statusPublished - Feb 1 2016

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Fluidized beds
Adhesion
Gases
Gravitation
Display devices

All Science Journal Classification (ASJC) codes

  • Chemical Engineering(all)

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An experimental investigation of the PM adhesion characteristics in a fluidized bed type PM removal device. / Yamamoto, Tsuyoshi; Hori, Kenta; Tatebayashi, June.

In: Powder Technology, Vol. 289, 01.02.2016, p. 31-36.

Research output: Contribution to journalArticle

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