The comprehensive water treatment plant is mainly composed of a carbon steel cylinder, stainless steel mesh, high-frequency electromagnetic field generator, corona field generator, and sewage discharge device. By using an activated iron filter membrane, a fully automatic mechanical filter with variable diameter hole blocking and corona effect field, a comprehensive filter body is formed to adsorb and concentrate hardness substances and composite scales formed in various water systems under actual operating conditions, reducing their concentration and achieving the goal of controlling dirt and most hardness scales. And the energy is converted to the treated medium water through a transducer, forming electromagnetic polarized water, which distorts the arrangement sequence and position of the scaling ions. When the water temperature rises to a certain degree, the treated water needs a period of time to recover to its original state. At this stage, the probability of scaling is very low, thus achieving the goal of controlling the formation of hardness scale. At the same time, the metal ions on the wall of the device are suppressed, which has a corrosion-resistant effect on the scale free system. In addition, electromagnetic polarized water can also kill bacteria, baths, and other microorganisms in water, and inhibit the reproduction of microorganisms in water. So, under normal system operation, the comprehensive water treatment system can complete the comprehensive functions of anti scaling, anti-corrosion, sterilization, algae removal, ultra clean filtration, and water quality control.
Scope of application of comprehensive water treatment equipment
① Air conditioning, chiller, refrigeration unit; Cooling and freezing circulating water system.
② System adopted: In the heating and hot water circulation system for heating.
③ Industrial, civilian, and cooling water; In industrial, civilian, and process cooling circulating water systems.
④ Apartments and hotels: hot water circulation system for daily bathing, catering, laundry rooms, swimming pools, etc.
⑤ Geothermal water system: a circulation system that uses geothermal water for bathing and heating.
Product Introduction of Comprehensive Water Treatment Device
Through long-term practice, it has been proven that there are four main hazards commonly present in today's water systems: scaling, corrosion, sludge, and microbial growth. The water quality issues in water systems, especially in circulating water systems, are often comprehensive. Due to the limitations of single device functionality, the water treatment equipment used in the past cannot be fully solved, so further practical technology is needed to address this issue. Our company has designed and manufactured a comprehensive water treatment system by combining high-frequency technology with electric energy magnetic field effects to address different issues such as electrochemical corrosion, scaling, and bacterial and algal growth. We have employed a combination of multiple frequency bands and electrostatic high voltage.
Technical parameters of comprehensive water treatment equipment
① Control corrosion rate:<0.01 mm/year, good filtration efficiency, anti scaling and descaling,
Sterilization bath
② Pressure loss:<0.03-0.06Mpa
③ Working voltage: AC 160V~240V
④ Safe insulation voltage: 5000V
⑤ Power consumption:<120W~600W
⑥ Work environment requirements: temperature -25 ℃~+50 ℃, relative temperature<95%
⑦ Working temperature (temperature of processed medium): -25 ℃~+90 ℃
⑧ Average * working hours: not less than 50000 hours
Precautions for installation of comprehensive water treatment equipment
① In order to facilitate equipment installation and maintenance, the top of the main body and the outer diameter need to be at least 400mm away from other equipment.
② Do not turn on the device for a long time without water.
③ The equipment should be installed in a bypass manner to meet the needs of maintaining the equipment and backwashing the filter body without stopping the machine.
④ Discharge rate: When the new system is first used, it should be backwashed 1-2 times a day. After normal operation, backwash should be carried out when the pressure difference between the inlet and outlet reaches 0.03-0.06Mpa. Systems with severe pollution should be backwashed using a mixture of air and water.
⑤ Backwash: Open the main valve, drain valve, close the inlet valve of the equipment, then cut off the 220V power supply and perform reverse flushing of the filter body. The backwash time depends on the water quality and is generally around 30 seconds.
⑥ Restore the pressure difference between the inlet and outlet of the filter body to the original pressure difference, open the inlet valve, close the main valve and drain valve, and connect the 200V power supply to ensure the normal operation of the equipment.