Transmission characteristics of coughed air using cough generator with simulated oral airway

Ayako Okajima; Hitomi Tsutsumi; Shin Ichi Tanabe; Toshiki Isahaya; Takashi Ito; Shoichi Morimoto; Satoshi Hori; Takao Ariga

Transmission characteristics of coughed air using cough generator with simulated oral airway

Ayako Okajima^*, Hitomi Tsutsumi, Shin Ichi Tanabe, Toshiki Isahaya, Takashi Ito, Shoichi Morimoto, Satoshi Hori, Takao Ariga

^*Corresponding author for this work

School of Creative Science and Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Citations (Scopus)

Abstract

This study identifies the transmission characteristics of a coughed air using a developed cough generator containing a silicon head device with an oral airway. Baby powder with a diameter range of 0.3-170 μm was emitted horizontally. The volume of the coughed air was set at 0.9L, with an air pressure of 0.4 MPa, ejection time of 0.35 s, and opening space of 4 cm ². A particle sensor counted the number of >0.5μm particles under masked and unmasked conditions. A high concentration of particles was measured at a distance of 1 m from an ejection point without a mask, while a low concentration was observed at a distance greater than 1 m from the ejection point. Particles reached the point that was 2 m from that with a mask, although at all points, the particle number with a mask was approximately half that without a mask.

Original language	English
Title of host publication	10th International Conference on Healthy Buildings 2012
Pages	2503-2508
Number of pages	6
Publication status	Published - 2012 Dec 1
Event	10th International Conference on Healthy Buildings 2012 - Brisbane, QLD, Australia Duration: 2012 Jul 8 → 2012 Jul 12

Publication series

Name	10th International Conference on Healthy Buildings 2012
Volume	3

Conference

Conference	10th International Conference on Healthy Buildings 2012
Country/Territory	Australia
City	Brisbane, QLD
Period	12/7/8 → 12/7/12

Keywords

Cough simulation machine
Infection risk
Measurement
Oral cavity
Tracer particles

ASJC Scopus subject areas

Civil and Structural Engineering

Cite this

Transmission characteristics of coughed air using cough generator with simulated oral airway. / Okajima, Ayako; Tsutsumi, Hitomi; Tanabe, Shin Ichi et al.
10th International Conference on Healthy Buildings 2012. 2012. p. 2503-2508 (10th International Conference on Healthy Buildings 2012; Vol. 3).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Okajima, A, Tsutsumi, H, Tanabe, SI, Isahaya, T, Ito, T, Morimoto, S, Hori, S & Ariga, T 2012, Transmission characteristics of coughed air using cough generator with simulated oral airway. in 10th International Conference on Healthy Buildings 2012. 10th International Conference on Healthy Buildings 2012, vol. 3, pp. 2503-2508, 10th International Conference on Healthy Buildings 2012, Brisbane, QLD, Australia, 12/7/8.

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abstract = "This study identifies the transmission characteristics of a coughed air using a developed cough generator containing a silicon head device with an oral airway. Baby powder with a diameter range of 0.3-170 μm was emitted horizontally. The volume of the coughed air was set at 0.9L, with an air pressure of 0.4 MPa, ejection time of 0.35 s, and opening space of 4 cm 2. A particle sensor counted the number of >0.5μm particles under masked and unmasked conditions. A high concentration of particles was measured at a distance of 1 m from an ejection point without a mask, while a low concentration was observed at a distance greater than 1 m from the ejection point. Particles reached the point that was 2 m from that with a mask, although at all points, the particle number with a mask was approximately half that without a mask.",

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AU - Okajima, Ayako

AU - Tsutsumi, Hitomi

AU - Tanabe, Shin Ichi

AU - Isahaya, Toshiki

AU - Ito, Takashi

AU - Morimoto, Shoichi

AU - Hori, Satoshi

AU - Ariga, Takao

PY - 2012/12/1

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N2 - This study identifies the transmission characteristics of a coughed air using a developed cough generator containing a silicon head device with an oral airway. Baby powder with a diameter range of 0.3-170 μm was emitted horizontally. The volume of the coughed air was set at 0.9L, with an air pressure of 0.4 MPa, ejection time of 0.35 s, and opening space of 4 cm 2. A particle sensor counted the number of >0.5μm particles under masked and unmasked conditions. A high concentration of particles was measured at a distance of 1 m from an ejection point without a mask, while a low concentration was observed at a distance greater than 1 m from the ejection point. Particles reached the point that was 2 m from that with a mask, although at all points, the particle number with a mask was approximately half that without a mask.

AB - This study identifies the transmission characteristics of a coughed air using a developed cough generator containing a silicon head device with an oral airway. Baby powder with a diameter range of 0.3-170 μm was emitted horizontally. The volume of the coughed air was set at 0.9L, with an air pressure of 0.4 MPa, ejection time of 0.35 s, and opening space of 4 cm 2. A particle sensor counted the number of >0.5μm particles under masked and unmasked conditions. A high concentration of particles was measured at a distance of 1 m from an ejection point without a mask, while a low concentration was observed at a distance greater than 1 m from the ejection point. Particles reached the point that was 2 m from that with a mask, although at all points, the particle number with a mask was approximately half that without a mask.

KW - Cough simulation machine

KW - Infection risk

KW - Measurement

KW - Oral cavity

KW - Tracer particles

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Transmission characteristics of coughed air using cough generator with simulated oral airway

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

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