Simulations show steam kills bacteria on a plate in 25 seconds without soap
From: American Institute of Physics
Superheated steam
dishwashers could provide a more effective, environmentally friendly solution
than conventional dishwashers. Researchers simulated such a dishwasher, finding
that it killed 99% of bacteria on a plate in just 25 seconds. The model of an idealized
dishwasher looks like a box with solid sides, a top opening, and a nozzle at
the bottom. A plate covered with heat-resistant bacteria is placed directly
above the nozzle. Once the plate reaches a certain threshold temperature, the
microorganisms are deemed inactivated.
Conventional
dishwashers often do not kill all the harmful microorganisms left on plates,
bowls, and cutlery. They also require long cycle times that use large
quantities of electricity, and the soap pumped in and out is released into
water sources, polluting the environment.
Superheated steam
dishwashers could provide a more effective, environmentally friendly solution.
In Physics of Fluids, by AIP Publishing, researchers from the
Technical University of Dortmund and the Technical University of Munich
simulated such a dishwasher, finding that it killed 99% of bacteria on a plate
in just 25 seconds.
The model of an
idealized dishwasher looks like a box with solid side walls, a top opening, and
a nozzle at the bottom. A plate covered with a heat-resistant strain of
bacteria is placed directly above the nozzle. Once the plate reaches a certain
threshold temperature in the simulation, the microorganisms are deemed
inactivated.
"Steam comes out
of the nozzle at a very high velocity. We can see shocks, and the turbulent
flow that is created has eddies and vortices," said author Natalie
Germann, of the Technical University of Dortmund. "We also include heat
transfer, which shows how the heat changes in the simulation box and the
condensation on the solid surfaces."
The shock waves,
created by the high velocity of the steam, are reflected at surfaces in the
dishwasher. While the team focused on bacteria in this work, the shocks could
be used to effectively remove food debris in the future.
"Our study helps
determine the strength of the shocks, the position of the shocks, and the
vortices that are created inside the dishwasher," said author Laila
Abu-Farah, of the Technical University of Munich. "These things are very
important for arranging the items or objects inside the dishwasher and the
placement and orientation of the nozzles."
While the simulations
show quick inactivation of the bacteria, actual applications of the dishwasher
would include more than one plate and therefore require more time. However, the
researchers believe it would still be much faster and more effective than
conventional technology.
The superheated steam
dishwasher would initially cost more but would pay off in the long run with
savings on water, electricity, and detergent. It would be ideal for use in
restaurants, hotels, and hospitals, which must meet high hygienic standards.
"We confirmed that
the dishwasher application using superheated steam is promising," said
Germann. "This is the first work combining fluid dynamics and heat
transfer with phase change and bacterial inactivation. It thus lays the
foundation for future computational research and further technical work."
https://www.sciencedaily.com/releases/2022/08/220830131616.htm
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