Primozone

Primozone – Ozone As It Should Be

A successful ozone water treatment installation depends on its ability to secure the required level of dissolved ozone in the water at all times.

How this is done can be more or less energy-consuming, safe and costly. And that’s where Primozone can change the way you look at and design an ozone solution.

Primozone technology has more than 7 times the production capacity at higher ozone concentrations than competitive technology. We provide both high ozone concentration and high ozone capacity/output.

The high ozone concentration is guaranteed independently of ozone output. Going from peak demand at 100% output to minimum demand at 10% the energy and oxygen consumption will correspondingly go down to 10%. In other words the ozone concentration is constant.

High Concentrations Ozone Production

Primozone ozone generators produce THE HIGHEST OZONE CONCENTRATION
ON THE MARKET. The Primozone method enables a more efficient creation
of free oxygen radicals, which in turn makes it possible to create ozone with
higher concentrations – up to 20 wt%.The unique high concentration
enables use of less oxygen, which means that LESS ENERGY IS NEEDED.

Also worth noting is that with the Primozone technology, oxygen consumption
will vary linearly to the ozone production – whereas traditional systems
generate a constant gas flow regardless of how much ozone is produced.
This means that HALF THE AMOUNT OF OXYGEN is used.

High concentrations, in combination with high pressures, are proven to
be MORE EFFECTIVE at dissolving ozone in water. With Primozone, users
will be able to meet their capacity needs using far less oxygen and energy.
And since high concentrations of ozone mean smaller gas volumes,
even the following ozone destruction benefits, requiring LESS ENERGY
TO ELIMINATE NON-DISSOLVED OZONE

Less Energy Lower OPEX

THE INNOVATIVE RETHINK of ozone technology yields
impressive savings in energy use and costs compared
to traditional ozone solutions:

• Less oxygen consumed – less energy needed, lower
  oxygen equipment costs, lower consumable costs
• Lower gas volumes – less energy needed for booster
  pumps for injection and for ozone destruction
• Higher ozone concentrations – more efficient
  dissolution in water per energy unit consumed
• Integrated reactor cooling – no need for air
  conditioners or the energy to operate them