Treatment of Industrial Water

Electronic water processor is one of the latest physical treatment methods in the field of industrial water treatment technology. Compared with chemical methods, it has the advantages of low investment, extremely low operating costs, convenient operation and management of material pollution, and long life. It is an advanced industrial water treatment equipment.
The electronic water processor uses a method of passing a weak current directly into the water, allowing the water flow to be processed by the electronic field when passing through the processor. It has the ability to prevent dirt from depositing and destroying old dirt, and can kill bacteria and algae in the water. In Europe, America, Japan and other countries, it has been widely used in industrial cooling water circulation systems, air-conditioning systems, refrigeration systems, heat exchange systems, heating systems, tap water systems, and boiler systems and other water systems to block, scale, sterilize, and kill algae.
In the 1990s, the GDL electronic water processor series was developed and manufactured. The center of the water processor is equipped with a titanium anode coated with reactive oxide coating by a research institute in Guangzhou. The seamless steel pipe in the shell acts as a cathode, and the treated water flows through the annular space between the yin and Yang poles.
When the hardness of the water is small, such as the total hardness is less than 100 mg/L(measured in CaCO3), the voltage difference between the yin and Yang causes the flow of the water to produce a plan, so that the positive and negative extremes of the water dipole face the cathode and are linked in a positive and negative order. Arrange. When the water contains dissolved salts, the positive and negative ions of the salts are surrounded and hydrated by several water dipoles. These salt ions also enter the dipole subgroup in a positive and negative order, so they can not swim freely in the water and are difficult to contact. The wall will not generate scale. At the same time, due to the polarization of water, the water molecules tend to the wall, causing the old dirt to crack, deform, and gradually fall off.
When the water hardness is large, there are more salt ions, which can not be completely hydrated by the dipole, and some salt positive and negative ions will be in the free state. These ions are subjected to electrostatic gravitation in the water processor. Ca2 +, Mg2 + and other positive ions move toward the cathode, accumulate near the cathode, and form carbonate precipitates so that Ca2 + and Mg2 + ions in the water are removed. Hardness and alkalinity decrease, preventing the formation of dirt in the water system.
Under the action of electrostatic gravitation, CL-, OH-and other anions will move toward the anode, accumulate near the anode, and there will be trace amounts of hydrogen peroxide and hypochlorite production under the action of a large anode potential. These substances have a strong ability to sterilize algae.
The total water hardness of the electronic field water processor is less than 600 mg/L(measured as CaCO3), the scale resistance is greater than 94 %, the scale removal rate is greater than 94 %, the sterilization rate is greater than 97 %, and the algae elimination rate is 100 %.