Detail publikace

Air filtration performance of symmetric polypropylene hollow-fibre membranes for nanoparticle removal

BULEJKO, P. DOHNAL, M. POSPÍŠIL, J. SVĚRÁK, T.

Anglický název

Air filtration performance of symmetric polypropylene hollow-fibre membranes for nanoparticle removal

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

en

Originální abstrakt

This work aimed to determine filtration performance of polypropylene hollow-fibre membranes (HFMs) for removing submicron particles from air. Experiments were performed in a glass chamber supplied with a nanoaerosol particles formed by burning incense sticks. Three types of HFMs varying in packing density, active filtration area and pore-size distribution were tested in an outside-in configuration. By measuring the number of particles upstream and downstream of the HFM, the filtration efficiency was determined. Three permeate velocities (5, 10 and 15 cm/s) were used to compare the velocity effect on filtration efficiency. Particle counting was carried out using a TSI 3075 condensation particle counter connected to a TSI 3080 scanning mobility particle sizer in 48 particle size channels from 18.1 to 100 nm. The results show high efficiency, mostly higher than 99% for particles above 60 nm size. The most penetrating particle sizes (MPPS) were between 35.9 and 40 nm at 5 cm/s with an efficiency of 82–86%. At permeate velocity of 10 and 15 cm/s, MPPS slightly decreased to range of 34.6–40 nm, with efficiency decreasing to 72–84% and 69–83%, respectively. The quality factor of HFMs was within the 2 to 28 kPa−1 range.

Anglický abstrakt

This work aimed to determine filtration performance of polypropylene hollow-fibre membranes (HFMs) for removing submicron particles from air. Experiments were performed in a glass chamber supplied with a nanoaerosol particles formed by burning incense sticks. Three types of HFMs varying in packing density, active filtration area and pore-size distribution were tested in an outside-in configuration. By measuring the number of particles upstream and downstream of the HFM, the filtration efficiency was determined. Three permeate velocities (5, 10 and 15 cm/s) were used to compare the velocity effect on filtration efficiency. Particle counting was carried out using a TSI 3075 condensation particle counter connected to a TSI 3080 scanning mobility particle sizer in 48 particle size channels from 18.1 to 100 nm. The results show high efficiency, mostly higher than 99% for particles above 60 nm size. The most penetrating particle sizes (MPPS) were between 35.9 and 40 nm at 5 cm/s with an efficiency of 82–86%. At permeate velocity of 10 and 15 cm/s, MPPS slightly decreased to range of 34.6–40 nm, with efficiency decreasing to 72–84% and 69–83%, respectively. The quality factor of HFMs was within the 2 to 28 kPa−1 range.

Klíčová slova anglicky

Hollow-fibre membrane; Filtration efficiency; Pressure drop; Nanoaerosol

Vydáno

31.05.2018

Nakladatel

Elsevier

Místo

Amsterdam

ISSN

1383-5866

Ročník

197

Číslo

1

Strany od–do

122–128

Počet stran

7

BIBTEX


@article{BUT142780,
  author="Pavel {Bulejko} and Mirko {Dohnal} and Jiří {Pospíšil} and Tomáš {Svěrák},
  title="Air filtration performance of symmetric polypropylene hollow-fibre membranes for nanoparticle removal",
  year="2018",
  volume="197",
  number="1",
  month="May",
  pages="122--128",
  publisher="Elsevier",
  address="Amsterdam",
  issn="1383-5866"
}