How indoor air quality and relative humidity control affect your life: fighting the spread of airborne diseases.
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Andrea Oscar Frisiero, Sales & Marketing HVAC Application Specialist at Chillventa eSpecial 2020. This presentation describes the role of air quality and humidity control in fighting the spread of airborne diseases and in preserving human health and the role of an HVAC company to reach these goals. Know more: healthcare.carel.com
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How indoor air quality and relative humidity control affect your life: fighting the spread of airborne diseases.
- 2. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. How Indoor Air Quality and Relative Humidity control affect your life: fighting the spread of airborne diseases Andrea Oscar Frisiero October 14th 2020
- 3. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. Indoor air quality Clean air is a basic requirement of life. The quality of air inside homes, offices, schools, day care centres, public buildings, health care facilities […] is an essential determinant of healthy life and people’s well-being. WHO Guidelines for Indoor Air Quality – selected pollutants
- 4. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. A Resource for Assessing Exposure to Environmental Pollutants (2001) https://pubmed.ncbi.nlm.nih.gov/11477521/ The National Human Activity Pattern Survey (NHAPS) 90% Of your time inside a building
- 5. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden.
- 6. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. CHEMICAL FACTORS CO2 CO VOC Formaldehyde NOX Particulate Matter (PM) BIOLOGICAL FACTORS Microorganisms Pathogens Temperature Relative humidity Air speed CLIMATIC FACTORS Radon Ionizing radiations Noise PHYSICAL FACTORS Electromagnetic fields IAQ
- 7. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. CHEMICAL FACTORS CO2 CO VOC Formaldehyde NOX Particulate Matter (PM) BIOLOGICAL FACTORS Microorganisms Pathogens Temperature Relative humidity Air speed CLIMATIC FACTORS Radon Ionizing radiations Noise PHYSICAL FACTORS Electromagnetic fields IAQ
- 8. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. RH % Ratio between current water content in the air and the maximum amount that can be held Risks at high concentrations: ⮚ Mould Risks at low concentrations: ⮚ Increased airborne diseases transmissibility ⮚ Impaired respiratory tract defences ⮚ Increased vitality for some viruses Relative Humidity control has the biggest impact in reducing infectivity of airborne transmitted diseases Relative humidity
- 9. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. Virus infectivity drops when Relative Humidity reaches above 40%. Noti J.D et al. (2013), High humidity leads to loss of infectious influenza virus from simulated coughs.
- 10. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. “Rises in temperature and relative humidity reduce COVID-19 transmissibility: Increases by +1°C and +1% RH make the R reproduction coefficient for drop by 0.0225 e 0.0158 respectively”. High Temperature and High Humidity Reduce the Transmission of COVID-19 – Jingyuan Wang et al. March 9, 2020
- 11. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. Ward MP, Xiao S., Zhang Z., Humidity is a consistent climatic factor contributing to SARS-CoV-2 transmission – Michael P. Ward et al. March 9, 2020 “Increased relative humidity was associated with decreased cases in both epidemic phases (c),[…]. Overall, a decrease in relative humidity of 1% was associated with an increase in cases of 7–8%”
- 12. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. Microorganisms growth Airborne diffusion Respiratory tract infection 1 2 3 Infection process Adequately controlling relative humidity can impact positively on all phases of the infection process, greatly reducing the chance of contagion Ideal relative humidity range for human health is between 40 and 60% RH!
- 13. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. Sterling Chart (1985)
- 14. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. How can WE from HVAC help? 1. Acknowledging the impact that control of indoor air conditions can have 2. Monitoring pollutants inside our buildings 3. Diluting them 4. Preventing infection with proper RH control
- 15. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden.
- 16. This document and all of its contents are property of CAREL. All unauthorised use, reproduction or distribution of this document or the information contained in it, by anyone other than CAREL, is severely forbidden. Thank you for your attention.