Ozone Generator

ozone-o2-generator-compressor

Ozone oxidation systems for water treatment applications for industrial, commercial, aquaculture and municipal uses

Ozone water treatment begins with the creation of ozone in an ozone generator. Then, ozone is injected into water,
and immediately starts oxidizing and eliminating contaminants, such as bacteria, viruses, fungi and algae. Ozone oxidizes organic material in the membranes of bacteria, viruses, and parasites. Ozone gas is considered as a broad spectrum biocide. It has a short half-life, so breaks down rapidly. A filter like a carbon filter can be installed to remove residual ozone before the water gets in contact with fish.

The ozone generator works in conjunction with the foam fractionator. Foam Fractionation (FF), or Protein Skimming (PS), provides continuous removal of organic wastes from solution while at the same time providing disinfections via coliform removal. This is achieved through adsorption, coagulation and micro flocculation of suspended particles. With the addition of small doses of ozone, organics removal and disinfection is improved. The resulting benefits are increased pH, increased dissolved oxygen, increased redox potential, improved water clarity and a reduction in the dependency on sand filters.

Ozone water treatment oxidizes iron, manganese, and sulfur in your well water to form insoluble metal oxides or elemental sulfur. These insoluble particles such as rust, are then removed by filtration which is typically activated carbon, manganese dioxide, or other media such as filter sand.

Currently, our smallest ozone generator delivers 1 gram per hour.

 

Specifications

Model

Size(mm)

Weight (kg)

Power(w)

Cooling

Maximum ozone concentration (g/M3)

ECO-FB-6G

350*230*530

11

120

air cooled

Oxygen source: 30-50;
Air source: 10-25

ECO-FB-10G

12

150

ECO-FB-16G

350*230*600

12

180

ECO-FB-20G

470*230*730

18

300

ECO-FB-25G

19

350

ECO-FB-32G

19

380

ECO-FW-40G

400*300*950

26

600

water cooled, 0.1-0.2M3/H

Oxygen source: 50-100;
Air source: 16-30

ECO-FW-50G

660

ECO-FW-60G

520*370*1150

50

1000

water cooled, 0.2-0.3M3/H

Oxygen source: 50-100;
Air source: 16-30

ECO-FW-80G

1200

ECO-FW-100G

730*370*1150

85

1300

ECO-FW-150G

770*500*1200

90

1800

water cooled, 0.3-0.5M3/H

Oxygen source: 50-100;
Air source: 16-30

ECO-FW-200G

95

2500

ECO-FW-300G

1000*500*1550

120

3200

water cooled, 0.3-0.8M3/H

Oxygen source: 80-150;
Air source: 16-35

ECO-FW-400G

125

3500

ECO-FW-500G

1000*800*1550

200

5500

water cooled, 0.5-1M3/H

Oxygen source: 80-150;
Air source: 16-35

ECO-FW-600G

250

6500

ECO-FW-1000G

1200*1000*1550

300

10200

water cooled, 1-1.5M3/H

Oxygen source: 80-150;
Air source: 16-35

ECO-FW-1500G

1200*1450*1550

420

15500

water cooled, 1-2M3/H

ECO-FW-2000G

1200*1800*1550

500

22000

water cooled, 1-3M3/H

      

Humidity levels above 50% will cut the output of  ambient air ozone generators in half!  (with the exception of UV ozone  generator ozone production method).

ozone-injectors
ozone-generator-models

Control and efficient dosing of ozone

The ORP controller serves to manage the dosing of ozone within the fractionation process. A basic and important component of the ORP controller is the ozone flow meter. The accuracy of the flow meter size is important for the successful operation of the fractionator. The protein skimmer collects suspended particles and organics in solution through adsorption to bubble surfaces where they will be carried out of the foam chimney. Fractionators operate well with no ozone, so a small amount of ozone only enhances the processes of adsorption and micro flocculation achieved at the air-water interface.

If a high dose of ozone is applied into a fractionator, the processes of adsorption and micro flocculation are inhibited. High doses of ozone tear apart organic molecules resulting in very poor foam production and  poor removal of organic materials.

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