The Effect of Hand Dryers on Restroom Indoor Air Quality

Amanda Anna Vinceviča; G. R. Devesh Krishnan; Žanna Martinsone

doi:10.17770/etr2025vol1.8678

The Effect of Hand Dryers on Restroom Indoor Air Quality

Amanda Anna Vinceviča
, G. R. Devesh Krishnan
, Žanna Martinsone

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

6 Downloads (Pure)

Abstract

The widespread use of hand-dryers in public restrooms raises concerns about hygiene and indoor air quality. Hand-dryers facilitate microbial proliferation and aerosolization, increasing infection risk and degrading indoor air quality by dispersing pathogens and allergens. This study investigates microbial growth and air contamination, advancing the field by exploring factors such as humidity, airflow mechanics, and particle count concerning various hand-dryer types. Different models of 8 warm air dryers and 2 jet dryers in ten restrooms were sampled (4 female, 4 male and 2 accessible) in an academic institution. The study involved air sampling from the hand-dryer outlet for 30 seconds directly onto agar plates and surrounding air sampling using the “SAS SUPER ISO 180” device. Microbiological samples were then cultivated on different media, manually counted and identified. Fungi were identified by native smears and safranin staining, bacteria using VITEK. Particle count was measured before and during hand dryer use with “TSI P-TRAK”, while other variables such as room temperature, humidity, CO2 levels, hand dryer air flow velocity, temperature were also recorded. The data was processed using IBM SPSS. Statistically significant correlations were found: airflow temperature negatively correlated with fungal dispersal on Sabouraud agar (r=-0.747, p<0.05), CO₂ positively correlated with bacterial dispersal on Trypticase soy agar (TSA) (r=0.661, p<0.05), and humidity showed a significant positive correlation with TSA CFU/min (r=0.636, p<0.05). Microbial contamination was detected in all restrooms. Warm air dryers consistently emitted higher bacterial loads than jet dryers across all tested media. Hand-dryer air ranged from 0 to 1360 CFU/min, while restroom air ranged from 0 to 1424 CFU/m3. Most fungi identified were molds (Mucor spp., Penicillium spp., Aspergillus spp.), with 22 yeast colonies. Analysis identified various opportunistic and pathogenic bacteria, including Acinetobacter baumannii, Escherichia coli, Staphylococcus and other species. Average particles count before use was 7831, while during use 11668. The findings indicate that while hand dryers may contribute to bacterial and fungal dispersal, factors such as airflow temperature, humidity, and CO2 levels also play significant roles in microbial behavior.

Original language	English
Title of host publication	Vide.Tehnoloģija. Resursi: 16. starptautiskās zinātniski praktiskās konferences materiāli, 2025. gada 19.-20.jūnijs
Subtitle of host publication	Environment. Technology. Resources: proceedings of the 16th International Scientific and Practical Conference, ETR 2025
Place of Publication	Rēzekne
Publisher	RTU Rēzeknes akadēmija
Pages	595-600
Number of pages	6
ISBN (Electronic)	9780000000002
DOIs	https://doi.org/10.17770/etr2025vol1.8678
Publication status	Published - 2025
Event	16th International Scientific and Practical Conference on Environment Technology Resources, ETR 2025 - Rezekne, Latvia Duration: 19 Jun 2025 → 20 Jun 2025

Publication series

Name	Vide. Tehnologija. Resursi - Environment, Technology, Resources
Publisher	Rēzeknes Tehnoloģiju akadēmija
Volume	1
ISSN (Print)	1691-5402
ISSN (Electronic)	2256-070X

Conference

Conference	16th International Scientific and Practical Conference on Environment Technology Resources, ETR 2025
Country/Territory	Latvia
City	Rezekne
Period	19/06/25 → 20/06/25

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords*

Hand Dryers
Indoor Air Quality
Microbiological contamination
Particles

Field of Science*

3.3 Health sciences

Publication Type*

3.1. Articles or chapters in proceedings/scientific books indexed in Web of Science and/or Scopus database

Access to Document

10.17770/etr2025vol1.8678Licence: CC BY

EFFECT OF HAND DRYERS ON RESTROOM INDOOR AIR QUALITYFinal published version, 2.2 MBLicence: CC BY

Cite this

Vinceviča, A. A., Devesh Krishnan, G. R., & Martinsone, Ž. (2025). The Effect of Hand Dryers on Restroom Indoor Air Quality. In Vide.Tehnoloģija. Resursi: 16. starptautiskās zinātniski praktiskās konferences materiāli, 2025. gada 19.-20.jūnijs : Environment. Technology. Resources: proceedings of the 16th International Scientific and Practical Conference, ETR 2025 (pp. 595-600). (Vide. Tehnologija. Resursi - Environment, Technology, Resources; Vol. 1). RTU Rēzeknes akadēmija. https://doi.org/10.17770/etr2025vol1.8678

Vinceviča, Amanda Anna ; Devesh Krishnan, G. R. ; Martinsone, Žanna. / The Effect of Hand Dryers on Restroom Indoor Air Quality. Vide.Tehnoloģija. Resursi: 16. starptautiskās zinātniski praktiskās konferences materiāli, 2025. gada 19.-20.jūnijs : Environment. Technology. Resources: proceedings of the 16th International Scientific and Practical Conference, ETR 2025. Rēzekne : RTU Rēzeknes akadēmija, 2025. pp. 595-600 (Vide. Tehnologija. Resursi - Environment, Technology, Resources).

@inproceedings{ef2880259ceb4ddaae43c55ea314e583,

title = "The Effect of Hand Dryers on Restroom Indoor Air Quality",

abstract = "The widespread use of hand-dryers in public restrooms raises concerns about hygiene and indoor air quality. Hand-dryers facilitate microbial proliferation and aerosolization, increasing infection risk and degrading indoor air quality by dispersing pathogens and allergens. This study investigates microbial growth and air contamination, advancing the field by exploring factors such as humidity, airflow mechanics, and particle count concerning various hand-dryer types. Different models of 8 warm air dryers and 2 jet dryers in ten restrooms were sampled (4 female, 4 male and 2 accessible) in an academic institution. The study involved air sampling from the hand-dryer outlet for 30 seconds directly onto agar plates and surrounding air sampling using the “SAS SUPER ISO 180” device. Microbiological samples were then cultivated on different media, manually counted and identified. Fungi were identified by native smears and safranin staining, bacteria using VITEK. Particle count was measured before and during hand dryer use with “TSI P-TRAK”, while other variables such as room temperature, humidity, CO2 levels, hand dryer air flow velocity, temperature were also recorded. The data was processed using IBM SPSS. Statistically significant correlations were found: airflow temperature negatively correlated with fungal dispersal on Sabouraud agar (r=-0.747, p<0.05), CO2 positively correlated with bacterial dispersal on Trypticase soy agar (TSA) (r=0.661, p<0.05), and humidity showed a significant positive correlation with TSA CFU/min (r=0.636, p<0.05). Microbial contamination was detected in all restrooms. Warm air dryers consistently emitted higher bacterial loads than jet dryers across all tested media. Hand-dryer air ranged from 0 to 1360 CFU/min, while restroom air ranged from 0 to 1424 CFU/m3. Most fungi identified were molds (Mucor spp., Penicillium spp., Aspergillus spp.), with 22 yeast colonies. Analysis identified various opportunistic and pathogenic bacteria, including Acinetobacter baumannii, Escherichia coli, Staphylococcus and other species. Average particles count before use was 7831, while during use 11668. The findings indicate that while hand dryers may contribute to bacterial and fungal dispersal, factors such as airflow temperature, humidity, and CO2 levels also play significant roles in microbial behavior.",

keywords = "Hand Dryers, Indoor Air Quality, Microbiological contamination, Particles",

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year = "2025",

doi = "10.17770/etr2025vol1.8678",

language = "English",

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publisher = "RTU Rēzeknes akadēmija",

pages = "595--600",

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Vinceviča, AA, Devesh Krishnan, GR & Martinsone, Ž 2025, The Effect of Hand Dryers on Restroom Indoor Air Quality. in Vide.Tehnoloģija. Resursi: 16. starptautiskās zinātniski praktiskās konferences materiāli, 2025. gada 19.-20.jūnijs : Environment. Technology. Resources: proceedings of the 16th International Scientific and Practical Conference, ETR 2025. Vide. Tehnologija. Resursi - Environment, Technology, Resources, vol. 1, RTU Rēzeknes akadēmija, Rēzekne, pp. 595-600, 16th International Scientific and Practical Conference on Environment Technology Resources, ETR 2025, Rezekne, Latvia, 19/06/25. https://doi.org/10.17770/etr2025vol1.8678

The Effect of Hand Dryers on Restroom Indoor Air Quality. / Vinceviča, Amanda Anna; Devesh Krishnan, G. R.; Martinsone, Žanna.
Vide.Tehnoloģija. Resursi: 16. starptautiskās zinātniski praktiskās konferences materiāli, 2025. gada 19.-20.jūnijs : Environment. Technology. Resources: proceedings of the 16th International Scientific and Practical Conference, ETR 2025. Rēzekne: RTU Rēzeknes akadēmija, 2025. p. 595-600 (Vide. Tehnologija. Resursi - Environment, Technology, Resources; Vol. 1).

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

TY - GEN

T1 - The Effect of Hand Dryers on Restroom Indoor Air Quality

AU - Vinceviča, Amanda Anna

AU - Devesh Krishnan, G. R.

AU - Martinsone, Žanna

PY - 2025

Y1 - 2025

N2 - The widespread use of hand-dryers in public restrooms raises concerns about hygiene and indoor air quality. Hand-dryers facilitate microbial proliferation and aerosolization, increasing infection risk and degrading indoor air quality by dispersing pathogens and allergens. This study investigates microbial growth and air contamination, advancing the field by exploring factors such as humidity, airflow mechanics, and particle count concerning various hand-dryer types. Different models of 8 warm air dryers and 2 jet dryers in ten restrooms were sampled (4 female, 4 male and 2 accessible) in an academic institution. The study involved air sampling from the hand-dryer outlet for 30 seconds directly onto agar plates and surrounding air sampling using the “SAS SUPER ISO 180” device. Microbiological samples were then cultivated on different media, manually counted and identified. Fungi were identified by native smears and safranin staining, bacteria using VITEK. Particle count was measured before and during hand dryer use with “TSI P-TRAK”, while other variables such as room temperature, humidity, CO2 levels, hand dryer air flow velocity, temperature were also recorded. The data was processed using IBM SPSS. Statistically significant correlations were found: airflow temperature negatively correlated with fungal dispersal on Sabouraud agar (r=-0.747, p<0.05), CO2 positively correlated with bacterial dispersal on Trypticase soy agar (TSA) (r=0.661, p<0.05), and humidity showed a significant positive correlation with TSA CFU/min (r=0.636, p<0.05). Microbial contamination was detected in all restrooms. Warm air dryers consistently emitted higher bacterial loads than jet dryers across all tested media. Hand-dryer air ranged from 0 to 1360 CFU/min, while restroom air ranged from 0 to 1424 CFU/m3. Most fungi identified were molds (Mucor spp., Penicillium spp., Aspergillus spp.), with 22 yeast colonies. Analysis identified various opportunistic and pathogenic bacteria, including Acinetobacter baumannii, Escherichia coli, Staphylococcus and other species. Average particles count before use was 7831, while during use 11668. The findings indicate that while hand dryers may contribute to bacterial and fungal dispersal, factors such as airflow temperature, humidity, and CO2 levels also play significant roles in microbial behavior.

AB - The widespread use of hand-dryers in public restrooms raises concerns about hygiene and indoor air quality. Hand-dryers facilitate microbial proliferation and aerosolization, increasing infection risk and degrading indoor air quality by dispersing pathogens and allergens. This study investigates microbial growth and air contamination, advancing the field by exploring factors such as humidity, airflow mechanics, and particle count concerning various hand-dryer types. Different models of 8 warm air dryers and 2 jet dryers in ten restrooms were sampled (4 female, 4 male and 2 accessible) in an academic institution. The study involved air sampling from the hand-dryer outlet for 30 seconds directly onto agar plates and surrounding air sampling using the “SAS SUPER ISO 180” device. Microbiological samples were then cultivated on different media, manually counted and identified. Fungi were identified by native smears and safranin staining, bacteria using VITEK. Particle count was measured before and during hand dryer use with “TSI P-TRAK”, while other variables such as room temperature, humidity, CO2 levels, hand dryer air flow velocity, temperature were also recorded. The data was processed using IBM SPSS. Statistically significant correlations were found: airflow temperature negatively correlated with fungal dispersal on Sabouraud agar (r=-0.747, p<0.05), CO2 positively correlated with bacterial dispersal on Trypticase soy agar (TSA) (r=0.661, p<0.05), and humidity showed a significant positive correlation with TSA CFU/min (r=0.636, p<0.05). Microbial contamination was detected in all restrooms. Warm air dryers consistently emitted higher bacterial loads than jet dryers across all tested media. Hand-dryer air ranged from 0 to 1360 CFU/min, while restroom air ranged from 0 to 1424 CFU/m3. Most fungi identified were molds (Mucor spp., Penicillium spp., Aspergillus spp.), with 22 yeast colonies. Analysis identified various opportunistic and pathogenic bacteria, including Acinetobacter baumannii, Escherichia coli, Staphylococcus and other species. Average particles count before use was 7831, while during use 11668. The findings indicate that while hand dryers may contribute to bacterial and fungal dispersal, factors such as airflow temperature, humidity, and CO2 levels also play significant roles in microbial behavior.

KW - Hand Dryers

KW - Indoor Air Quality

KW - Microbiological contamination

KW - Particles

UR - https://www.scopus.com/pages/publications/105011727381

U2 - 10.17770/etr2025vol1.8678

DO - 10.17770/etr2025vol1.8678

M3 - Conference contribution

AN - SCOPUS:105011727381

T3 - Vide. Tehnologija. Resursi - Environment, Technology, Resources

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BT - Vide.Tehnoloģija. Resursi: 16. starptautiskās zinātniski praktiskās konferences materiāli, 2025. gada 19.-20.jūnijs

PB - RTU Rēzeknes akadēmija

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Vinceviča AA, Devesh Krishnan GR, Martinsone Ž. The Effect of Hand Dryers on Restroom Indoor Air Quality. In Vide.Tehnoloģija. Resursi: 16. starptautiskās zinātniski praktiskās konferences materiāli, 2025. gada 19.-20.jūnijs : Environment. Technology. Resources: proceedings of the 16th International Scientific and Practical Conference, ETR 2025. Rēzekne: RTU Rēzeknes akadēmija. 2025. p. 595-600. (Vide. Tehnologija. Resursi - Environment, Technology, Resources). doi: 10.17770/etr2025vol1.8678

The Effect of Hand Dryers on Restroom Indoor Air Quality

Abstract

Publication series

Conference

UN SDGs

Keywords*

Field of Science*

Publication Type*

Access to Document

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