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OZONE SOLUTIONS
INTERNAL COMPONENTS
1. AD-500 Air Dryer
This component is a cylindrical container with an air
port on either end. Inside is a desiccant media that
absorbs moisture from the air flowing through it. This
component requires periodical maintenance in the
form of desiccant regeneration or replacement.
2. HG-1500 Ozone Generator Module
This unit (located behind the shield in the diagram)
produces ozone from the stream of dried air. This unit
is air cooled, so the vents on it should be unobstructed.
3. Pump
This pump provides forced flow and pressure to the
venturi injector, ensuring better performance of the
injector.
4. Ventillation Fan
This fan expels hot air from the enclosure. This also
pulls in cooler air through the opposite vent.
5. Static Mixer
This component creates turbulence within the water
flowing through it.
It is the last dedicated mixing
opportunity before the treated water leaves the
machine toward the process application.
SECTION 3
WATER FLOW
Water flow through this Ozone Injection System will
be dependent upon the supply water connection to
maintain pressure on the system. The ozone injection
will occur regardless of the rate of flow through the
contact pipe, as long as the tank remains full of water.
Higher water usage will result in lower dissolved ozone
levels, while lower water usage will result in higher
dissolved ozone levels. This is due only to the ratio
of ozone to water. Keep this in mind when specific
dissolved ozone levels are required for your operation.
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SZ SERIES
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6. Venturi Injector (behind pressure gauge)
As water flows through the injector, internal geometry
creates a low pressure, which sucks in ozone. This
vacuum pressure is what drives the air and ozone flow
through the rest of the system.
7. Pressure Switch
The pressure switches ensure that water pressure
requirements are met within the system, to prevent
damage to the pump and other components.
8. Solenoid Valve
This valve will open to allow water into the system when
the system is powered on.
WATER PRESSURE
This Ozone Injection System will not operate effectively
with high water pressures. If water pressures are
expected to be much higher than standard municipal
systems, then water pressure should be regulated
ahead of the ozone system so that it can be adjusted
to maintain lower pressures.
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