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Old 11-16-2009, 04:16 PM   #1
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Default Lotus Sanitizer

Anyone ever used one of these?


My SWMBO got me one for a great price with the hope it is something I could use for homebrewing. From the website, it looks pretty promising.

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Old 11-16-2009, 04:39 PM   #2
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Hmm, looks interesting. Here is a portion of the FDA brochure on their site that would pertain to us:

Use of ozone for winery and environmental sanitation
By Brian Hampson, PhD, Food Science and Nutrition Dept
California Polytechnic State University, San Luis Obispo, CA
Since the early 1900s, ozone has been widely used for water treatment,
including disinfection of municipal water supplies, swimming pools, spas,
cooling towers, and sewage treatment plants. Recently, ozone has been used in
food processing for sanitizing raw materials and irrigation waters, sanitizing
packaging materials and storage facilities, and for sanitizing water for

Prior to 1997, ozone could only be used for sanitation and purification of
bottled drinking water in the U.S., and it is widely used around the world for
this purpose today. In May 1997, an expert panel assembled by the Electric
Power Research Institute (EPRI) declared ozone to be Generally Recognized as
Safe (GRAS) for use in food processing in the U.S.
Since then, wineries have embraced the use of ozone. Its use has been
generally accepted and documented to be effective for barrel cleaning and
sanitation, tank cleaning and sanitation, clean-in-place systems, and for general
surface sanitation.

This same trend of acceptance has been noted in many other industries, such as
fresh-cut produce processing; produce storage facilities; food processing,
including meat processing facilities; and, as noted above, in the bottled water
and beverage industries. In these industries, the ozone systems are generally
permanently mounted or fixed in place, which makes management of off-gas
and ozone monitoring for safety and efficacy relatively easy.
However, in the wine industry, ozone systems tend to be mobile, with multiple
operators in multiple locations. This makes it important that safety features and
ozone management systems be in place and that the system itself be reliable
and easy to operate.

Understanding how ozone works
Ozone, or O3, is generated in nature as a bluish or colorless gas characterized
by the clean fresh smell in the air following a thunderstorm. When oxygen (O2)
and electricity interact, ozone is created, and this is why we smell ozone
around copy machines, electric motors, or during arc welding.
Natural levels range from 0.01 ppm to 0.15 ppm and can reach higher
concentrations in urban areas. Ozone is an unstable gas and readily reacts with
organic substances. It sanitizes by interacting with microbial membranes and
denaturating metabolic enzymes.

Ozone will also attack microbial biofilms and degrade them much as it would
any other polysaccharide. Upon release of its oxidizing potential, ozone reverts
back to oxygen from which it was generated. Application of ozone does not
leave a chemical residual, and under ambient conditions, it has a half-life of 10
to 20 minutes. Thus, ozone must be electrically generated on-demand and
cannot be stored for later use.

Ozone is generated by irradiation of an air stream with ultra-violet (UV) light
at a wavelength of 185 nm or by passing dry air or oxygen through a corona
discharge (CD technology) generator. For low ozone concentrations (ca. 0.14%
by weight, or 0.5 grams per hour), the less expensive UV equipment is
sufficient. For more demanding situations, where higher ozone concentrations
(1.0% to 14% by weight) are required, CD systems are used.

The wine industry is using both CD technology and UV. Some manufacturers
use multiple UV tubes to achieve a desired level of output. Several
manufacturers chose to install air-cooled or water-cooled CD generators in
their systems. It is really a question of how much ozone at a certain gpm is
desired for an application. For CIP, 20 gpm may be desired, necessitating a
larger system, while only 10 gpm at a lower concentration may provide
satisfactory barrel washing.

Using ozone safely
Ozone is a toxic gas and must be monitored in the workplace when in use.
However, in almost 100 years of industrial use, there has never been a human
death attributed to overexposure to ozone. The Occupational Safety and Health
Administration (OSHA) has set limits for ozone exposure in the workplace.
These limits are for continuous eight-hour exposure of no more than 0.1 ppm,
and a short-term exposure limit (STEL) of 15 minutes at 0.3 ppm, not to be
exceeded more than twice per eight-hour work day.

Consequently, ozone requires monitoring in the workplace if used for
environmental or equipment sanitation. Ozone monitors are readily available,
and the supplier of ozone generating equipment should be able to assist with
the selection and use of such monitors.

A manual containing all the relevant safety information for working with
ozonating systems is essential; it should also contain operating instructions for
the wineryÕs generating system. Workplace monitoring for ozone off-gas must
be performed, and records must be maintained to assure OSHA compliance.
When ozone is generated, it is important that the concentration and flow rates
be verified, and these should be checked periodically by a technician on some
regular schedule or interval (e.g., monthly). All ozone generated should be
accounted for, by checking for leaks in the system and by proper destruction of
any excess ozone.

If the ozone is being applied as a gas for the fumigation of a storeroom or
cellar, monitoring at the far end of the room and feedback control is desirable.
If the ozone is dissolved in water and this water is subsequently used for
sanitation, there is always some excess ozone that will not be dissolved into

No ozone mass transfer system is 100% efficient. Excess ozone, or entrained
ozone gas, must be "de-gassed" or separated from the water stream prior to
delivery to equipment or the processing environment. This excess ozone must
also be destroyed or decomposed back to oxygen before being released back
into the atmosphere. Thermo-catalytic ozone destruct units are small, efficient,
and available for this purpose.

It is not enough to just purchase an ozone generator. Your winery must also
have maintenance, verification of performance, monitoring, and, especially in
the case of mobile ozone units, an in-place systems approach that ensures the
safe use of ozone in the workplace. Properly used, these ozone sanitizing
systems are much safer than chemical (chlorine and caustics) or heat-based
sanitizing systems.

Oxidation of equipment and facilities
One concern is that use of ozone will oxidize equipment and facilities, and this
can happen if the materials are incompatible with ozone. Most materials used
in food processing are compatible. Stainless steel (e.g., 316L) is corroded less
by ozone than by chlorine, and common plastics used in food processing are
generally resistant, including ECTFE (HalarŽ), PTFE (TeflonŽ), PVDF
(KynarŽ), PVC (rigid, schedule 80 or 40), and silicon tubing and gaskets.
Natural rubber will readily degrade; however FPM (VitonŽ) and Teflon gaskets
are very stable.

When ozone is used in high concentrations, stainless steel, Teflon, and Kynar
are the best construction materials. PVC should be avoided under high
concentration conditions. In general however, high concentrations (in the low
percent range) are only found inside the generator or in the ozone-to-water
contacting system. Aside from natural rubber material, brass and copper should
also be avoided for concentrations over 1.0 ppm of ozone dissolved in water.
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Old 11-16-2009, 04:40 PM   #3
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2nd part.....


Evaluating ozone sanitation
Recently, in my laboratory at California Polytechnic State University, a study
was performed to evaluate ozone's effectiveness as an environmental sanitizer.
The fruit and vegetable pilot plant in the university's Food Science and
Nutrition Department became the location for the test, and the ozone system
used in the study was a DEL Industries model AGW-0500 Surface Sanitizer™.
This system is able to deliver an applied dose of 2.0 ppm through a 10 gpm
hand-held spray wand, typically delivering a residual (measurable) dose of
around 1.5 ppm ozone-in-water solution. Environmental ozone monitoring was
performed using an EcoSensor ambient monitor, and concentrations in solution
were verified using a Rosemount Analytical dissolved ozone monitor (model

Various surfaces in the facility were sprayed with the ozonated water in a back
and forth fashion for one minute. The test surfaces included a polished stainless
steel mixing kettle and table top, stainless steel shroud, central floor drain, a
plastic shipping container, and two locations on the non-slip epoxy-coated
concrete floor of the facility (area 1 is high-traffic and area 2 is low-traffic).
Test areas were not cleaned prior to sanitation, so only the effect of the ozone
spray wash was measured. Testing was repeated four times, and microbial load
of a 100 cm2 area was measured before and after ozone application, using both
aerobic plate count (3M APC Petrifilm) and bioluminescence (Biotrace;
UniLite UXL 100 Bioluminometer). Results are presented in Table I.

Table 1
Location % Reduction
(plate count) % Reduction (biolum)
Stainless steel (kettle) 89.7 to 98.2 87.6 to 91.8
Stainless steel (table top) 98.9 to 99.7 90.0 to 93.8
Stainless steel (shroud) 63.1 to 99.9 68.8 to 92.2
Floor surface, area 1 67.0 to 95.6 75.2 to 96.1
Floor surface, area 2 84.3 to 99.9 32.8 to 48.8
Floor drain * 54.7 to 66.5
Floor drain (2 minutes) 77.5 92.9 to 99.4
Plasic shipping container 96.9 to 97.2 68.8 to 97.4

ue to drainage and sampling problems, results from this location were inconclusive.
The results indicate that ozone applied as a spray wash is effective in reducing
microbial load in the processing environment. The drain presented problems
during the test because the ozonated water applied to the drain washed
throughout the long central drain ditch, which made results inconclusive. A
second test on the drain for two minutes of exposure did provide a reduction in
One advantage ozone has is its ability to readily oxidize microbes in solution.
Thus, once a surface is spray-washed, the microorganisms physically lifted
from the surface will be killed as they find their way to a drain. The data above
represents one series of tests over a two-week period (evaluations performed
approximately every third day). With continued or daily use, it is reasonable to
expect that the microbial load will be significantly eliminated at all locations
exposed to the ozone. Because ozone requires no storage or special handling or
mixing considerations, it may be viewed as advantageous over other chemical
sanitizers. Some may consider the fact that ozone leaves no sanitizing residual
a disadvantage, but if a residual is desired, there are many other sanitizers
available to accomplish that. Ozone can be considered a complimentary
sanitizing regime to help maintain the overall cleanliness and sanitation of a

Dr. Brian C. Hampson, is a professor of Food Science at California
Polytechnic State University, San Luis Obispo, CA. You may contact him by email
at: or by telephone: 805/756-6127.
mail at: or by telephone: 805/756-6127.
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