The high content of salts of hardness makes water unsuitable for household needs, and untimely cleaning of heat exchangers and pipes from scale in the form of carbonate, chloride and sulfate salts Ca2 +, Mg2 + and Fe3 + leads to a reduction in the diameter of the pipeline, which leads to increased hydraulic resistance. 

The reduction of resistance negatively affects the operation of heat exchange equipment.

Scale has a coefficient of thermal conductivity is much lower than the metal from which the heating elements are made, so more time is spent on heating the water. 

Over time, energy losses can make the heat exchanger work on such water ineffective or completely impossible and can lead to an accident.

 

With a large thickness of the inner layer of scale, water circulation is disturbed.

In boiler plants this can lead to overheating of the metal, and, ultimately, to its destruction. 

All these factors lead to the need for repair work, replacement of pipelines and sanitary equipment and requires significant capital investments and additional cash costs for cleaning heat exchangers.

 

 

The high content of salts of hardness makes water unsuitable for household needs, and untimely cleaning of heat exchangers and pipes from scale in the form of carbonate, chloride and sulfate salts Ca2 +, Mg2 + and Fe3 + leads to a reduction in the diameter of the pipeline, which leads to increased hydraulic resistance. The reduction of resistance negatively affects the operation of heat exchange equipment.

Scale has a coefficient of thermal conductivity is much lower than the metal from which the heating elements are made, so more time is spent on heating the water. Over time, energy losses can make the heat exchanger work on such water ineffective or completely impossible and can lead to an accident.

 

With a large thickness of the inner layer of scale, water circulation is disturbed; in boiler plants this can lead to overheating of the metal, and, ultimately, to its destruction. All these factors lead to the need for repair work, replacement of pipelines and sanitary equipment and requires significant capital investments and additional cash costs for cleaning heat exchangers.

 

In general, magnetic treatment of water reduces the corrosion of steel pipes and equipment by 30-50% (depending on the composition of the water), which makes it possible to extend the life of heat energy equipment, water pipes and steam pipelines and significantly reduce the accident rate.

 

Magnetic treatment of water in comparison with traditional methods of water softening by ion exchange and reverse osmosis is technologically simple, economical and environmentally safe.

Magnetic treatment of water reduces the corrosion of steel pipes and equipment by 30-50% (depending on the composition of the water), which makes it possible to extend the life of heat energy equipment, water pipes and steam pipelines and significantly reduce the accident rate.

 

Magnetic treatment of water in comparison with traditional methods of water softening by ion exchange and reverse osmosis is technologically simple, economical and environmentally safe.