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STUDIES
IN IONIZATION DISINFECTION
Abstract
TITLE:
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Disinfection
of Bacteria In Water Systems by Using Electrolytically Generated Copper:
Silver & Reduced Levels of Free Chlorine |
AUTHORS:
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Yahya
MT, Landeen LK, Mesina MC, Kutz SM, Schultze R, & Gerba CP |
PUBLICATION
REF:
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Canadian
Journal of Microbiology 36: 109-116, 1990 |
PURPOSE
OF STUDY:
The
recommended minimum level of free chlorine for disinfection of public
swimming pools is 1 mg/liter. This level is difficult to maintain due
to the chlorine-demanding organic material introduced by bathers themselves
as well as the environment. Eye and skin irritation may also occur at the
minimum chlorine level needed for effective disinfection. Electrolytically
generated copper/silver ions are also microbiocidal and are much less
subject to degradation but are slower acting than chlorine. Therefore,
the authors tested the hypothesis that using the two methods together
would accomplish effective disinfection while reducing the level of free
chlorine required.
MATERIALS
AND METHODS:
Two
32-gallon plastic containers, one indoors (temperature range 22 to 25)
and the second outdoors exposed to sunlight (temperature range 18 to 36)
were filled with tap water. After chemical analysis and adjustment of
pH and test levels of disinfectants, bath water and urine were added to
stimulate typical swimming conditions. Four treatment regimens were tested:
(1) No added disinfectants (2) Free chlorine alone at the
generally recommended level of 1 mg/liter (3) Free chlorine at
0.3 mg/liter combined with copper and silver ions at a ration of 400 ug/liter
of copper to 40 ug/liter of silver (4) Copper and silver ions alone
at the same ratio as above. An isolate of Staphylococcus sp was
employed for bacterial challenge testing since previous work had shown
that staphylococci are more resistant to disinfection than are coli form
bacteria. The experiment was continued for 12 weeks.
RESULTS:
In
the test of free chlorine alone, location proved to be critical. In the
outdoor setting subject to strong sunlight and high temperatures, no residual
chlorine could be detected 3 to 4 hours after optimization. Indoor, where
environmental factors were much less extreme, a residual level of 0.1
to 0.3 mg/liter was found after 24 hours.
Bacterial
counts were kept within drinking water standards (as recommended for swimming
pools) by either high levels of chlorine alone or by the combination regimen
of copper and silver ions with low levels of chlorine: the difference
in total bacterial numbers was not significant. Hen challenged with Staphylococcus
sp isolate, the combination of copper and silver ions with low levels
of chlorine achieved a 2.4 log 10 reduction in bacterial numbers within
2 minutes, while the single-agent regimes (free chlorine alone, or copper/silver
alone) showed only 1.5 & 0.03 log 10 reductions respectively. Under Staphylococcus
sp challenge, the combined copper/silver and free chlorine had a faster
log 10 reduction of microbial numbers than did treatment with a high level
of chlorine alone.
CONCLUSIONS:
The addition of electrolytically generated copper/silver ions
in the radio tested (400 ug/liter copper to 40 ug/liter silver) allowed
reduction in the concentration of free chlorine to one third of the level
customarily recommended. The use of copper/silver may provide resisting
protection in swimming pools after chlorine has been rendered ineffective
due to contamination from swimmers and the natural environment.
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