Smart windows can significantly reduce indoor pathogens
Daylight can disinfect surfaces

Date:
January 19, 2022
Source:
University of British Columbia Okanagan campus
Summary:
Daylight passing through smart windows results in almost complete
disinfection of surfaces within 24 hours while still blocking
harmful ultraviolet (UV) light, according to new research. For
this research, she tested four strains of hazardous bacteria --
methicillin-resistance Staphylococcus aureus, Klebsiella pneumoniae,
E. coli and Pseudomonas aeruginosa -- using a mini-living lab
set-up. The lab had smart windows, which tint dynamically based
on outdoor conditions, and traditional windows with blinds.



FULL STORY ========================================================================== Daylight passing through smart windows results in almost complete
disinfection of surfaces within 24 hours while still blocking harmful ultraviolet (UV) light, according to new research from UBC's Okanagan
campus.


==========================================================================
Dr. Sepideh Pakpour is an Assistant Professor at UBC Okanagan's School
of Engineering. For this research, she tested four strains of hazardous bacteria - - methicillin-resistance Staphylococcus aureus, Klebsiella pneumoniae, E. coli and Pseudomonas aeruginosa -- using a mini-living lab set-up. The lab had smart windows, which tint dynamically based on outdoor conditions, and traditional windows with blinds. The researchers found
that, compared to windows with blinds, the smart windows significantly
reduce bacterial growth rate and their viability.

In their darkest tint state, Dr. Pakpour says smart windows blocked
more than 99.9 per cent of UV light, but still let in short-wavelength, high-energy daylight which acts as a disinfectant. This shorter wavelength light effectively eliminated contamination on glass, plastic and fabric surfaces.

In contrast, traditional window blinds blocked almost all daylight,
preventing surfaces from being disinfected. Blinds also collect dust
and germs that get resuspended into the air whenever adjusted, with
Dr. Pakpour noting previous research has shown 92 per cent of hospital
curtains can get contaminated within a week of being cleaned.

"We know that daylight kills bacteria and fungi," she says. "But the
question is, are there ways to harness that benefit in buildings,
while still protecting us from glare and UV radiation? Our findings
demonstrate the benefits of smart windows for disinfection, and have implications for infectious disease transmission in laboratories,
health-care facilities and the buildings in which we live and work."
The pandemic has elevated concerns about how buildings might influence
the health of the people inside. While particular attention has been paid
to ventilation, cleaning and filtration, the importance of daylight has
been ignored. According to research shared in a recent Harvard Business
Review, office workers are pushing for "healthy buildings" as part of
the return to work and consistently rank access to daylight and views
among their most desired amenities.



==========================================================================
"Our buildings need to go beyond sustainable and smart to become healthy
and safe environments first and foremost," says Dr. Rao Mulpuri,
Chairman and CEO at View, the company partnering with UBC for this
research. "Companies are grappling with how to bring their people back
to the office in a safe way. This research provides yet another reason
why increased access to natural light needs to be part of the equation."
The research was sponsored with joint funding from View Inc. and the
Canadian government through MITACS, a not-for-profit organization that
fosters growth and innovation in Canada by solving business challenges
with research solutions from academic institutions.

The results of the research are particularly important for laboratories
and health-care facilities. Sterile spaces are critical in labs, where sensitive materials must be protected from UV radiation and environmental contamination.

Extensive studies have shown that pathogenic bacteria and fungi can
persist on inanimate surfaces for prolonged periods, leading to disease transmission. This is especially concerning in health-care settings,
says Dr. Pakpour, where health-care-associated infections and outbreaks
are often linked to contamination of curtains, windows, medical devices
and other high touch surfaces despite current cleaning protocols.

"With the rise of antimicrobial resistance, antibiotics are no longer a
silver bullet in treating health-care-associated infections, which cause
tens of thousands of deaths in the US each year," says Dr. Tex Kissoon,
Vice Chair of the Global Sepsis Alliance, UBC Children's Hospital Endowed
Chair in Acute and Critical Care for Global Child Health. "The potential
for daylight to sterilize surfaces and avoid these infections altogether
is promising and should be factored into health-care facility design."
Dr. Pakpour presented her findings earlier today at the international
Healthy Buildings Conference, organized by the International Society of
Indoor Air Quality and Climate.

"Passive environmental strategies, like allowing daylight through
windows without blinds, can help keep the risk of infections down,"
says Dr. Pakpour.

"Our findings demonstrate the benefits of smart windows for disinfection,
and have implications for infectious disease transmission in laboratories, health care facilities and the buildings in which we live and work." ========================================================================== Story Source: Materials provided by University_of_British_Columbia_Okanagan_campus. Note: Content may be
edited for style and length.


========================================================================== Journal Reference:
1. Man In Lam, Kinga Vojnits, Michael Zhao, Piers MacNaughton, Sepideh
Pakpour. The effect of indoor daylight spectrum and intensity on
viability of indoor pathogens on different surface materials. Life
Sciences (accepted), 2022 [abstract] ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2022/01/220119121350.htm

--- up 6 weeks, 4 days, 7 hours, 13 minutes
* Origin: -=> Castle Rock BBS <=- Now Husky HPT Powered! (1:317/3)