1 Cell Ozone Capacity (Max O3/h) 40 mg
Ozone Concentration in the water phase max. 750 ppb (= 0.75 mg.)
Electrolysis current 6 VDC Electrolysis power nominal 200mA
Pressure max. +6 bar (PN 6)
Power Consumption 2 watt Pond size 15,000 litres
2 Cell Ozone Capacity (Max O3/h) 80mg
Ozone Concentration in the water phase max. 750 ppb (= 0.75 mg.)
Electrolysis current 12 VDC Electrolysis power nominal 200mA
Pressure max. +6 bar (PN 6)
Power Consumption 4 watt Pond size 30,000 litres
Important.
For the ozone micro cell the water to be treated is also the fuel source.
No other supplements are required.
To produce ozone,only electrical energy is required to supply the cell core with power.
Dependent on water quality(hardness/pollution)the cell core needs to be replaced on average 3/4 times a year.
Changing the cell is a simple process,similar to changing batteries.
|
Available in a 1 or 2 cell version for koi and ornamental ponds
Ozone (O3) is a highly reactive allotrope of Oxygen (O2) and a powerful oxidising agent. It is used in the treatment of water ponds to minimize bacterial growth, control parasites and remove or reduce green water.
As the Ozone rapidly decomposes, at correctly controlled levels the application has no effect on the fish.
Advantages of the Ozone-Micro-Cell
Slow development of an increased redox-potential - optimum levels of all water parameters are maintained through the continuous presence of oxygen.
Permanent micro-disinfection prevents a one-sided increase of e.g. pathogenic germs like Aeromonas salmonicidae, that have a detrimental effect on the equal expansion of an aerobe environment.
No immediate threat to fish from increased ozone input compared to an ozone generator with electrical discharge.
Toxic reactions from overdose levels do not occur. No surplus ozone produced.
No personal risk in enclosed filter areas, as tolerated levels are never achieved.
Capacity can be adapted according to pond size by using multiple Ozone-Micro-Cells.
Maintenance, requires only the replacement of the reasonably priced cell cores ( 2 - 4 times a year, dependant on water quality/hardness/pollution).
This method of ozone production does not require dried air which produces sulphuric acid in the electrode chamber that often causes the pH to drop into the acid range.
Ozone produced by electrolysis is highly efficient and effective.
|
