brief introduction

　　The ZTJY-SC-F and ZTJY-SC-G series circulating water side flow water processors are developed based on the original full flow water processor. This water processor adopts the principle of high-frequency oscillating electric field, automatically adjusts the processing signal according to water quality, and only requires side flow treatment. The successful development of this technology is at a leading level internationally. The product is suitable for sterilization, algae removal, descaling treatment and removal of suspended solids in circulating water systems.

application

Central air conditioning cooling and refrigerant water system

Refrigeration cycle water system

Industrial cooling circulating water system

Various heat exchange systems and cooling tower systems

Working principle of sterilization and algae removal

The ZTJY-SC series water processor is used for purifying water quality for the growth of microorganisms (such as bacteria and algae). Its principle is that when water flows through the SC type water processor, the ecological environment of bacteria and algae in the water changes, and their living conditions are lost and they die. Specifically manifested in three aspects:

Every living organism has its specific biological field for survival. The distribution and movement of electric charges within living organisms are influenced by changes in the electric field of the external environment, which in turn affects the life activities of the organism. Microorganisms on Earth can generally only adapt and survive in the electric field strength (130v/m) on the Earth's surface. Changing the electric field strength can alter or affect the physiological metabolism of bacteria (E. coli), such as gene expression programs, enzyme activity, etc., causing abnormal bacterial survival, which is one of the reasons for bacterial death.

The cell membrane has many channels. Through these channels, cells communicate with their surroundings. These channels are composed of individual molecules or molecular complexes that allow ions to pass through. The regulation of ion channels affects the life and function of cells. The external electric field destroys the ion channels on the cell membrane, alters the internal current that regulates cell function, and thus affects bacterial life. The liquid containing bacteria flows through a strong electric field, causing an instantaneous change in current to pass through the liquid. Cells on the conductive pathway are killed by the high-speed moving electron shock wave, achieving the purpose of sterilization.

During the process of treating water with an electric field, dissolved oxygen is activated to produce reactive oxygen species such as O2, · OH, H2O2, and O2 (O2 is a superoxide anion radical, · OH is a radical radical, H2O is hydrogen peroxide, and 221O is singlet oxygen). Reactive oxygen species can have a series of harmful effects on microbial communities and are the main cause of organic aging. O2- can damage important biomolecules and cause damage to microbial organisms; O2- Organic microbial membrane peroxidation accelerates aging. The working principle of anti-corrosion is that reactive oxygen species form an oxide film on the new pipe wall. Microbial corrosion and silent corrosion are inhibited.

Working principle of scale prevention and removal

After passing through the SC type processor, the degree of polymerization of water molecules decreases, the structure undergoes deformation, and a series of small elastic changes in physical and chemical properties occur, such as an increase in the dipole moment and polarity of water, thereby increasing its water and scale solubility.

The salt ions contained in water, such as Ca2+and Mg2+, are subject to the gravitational force of an electric field, causing changes in their arrangement and making it difficult for them to accumulate towards the pipe wall, thereby preventing the formation of scale. Specific energy fields alter the crystallization process of CaCO3, inhibiting the production of calcite and providing energy for the formation of aragonite crystals. After treatment, the surface Zeta potential of suspended particles and colloids in water changes, leading to destabilization, flocculation, and precipitation. Sediments are washed away by water flow or discharged to purify water. After treatment, reactive oxygen species are produced in the water. The addition of reactive oxygen species in the crystallization process accelerates the destabilization of colloids. For systems that have already formed scale, reactive oxygen species will destroy the electronic binding force between scale molecules, change their crystal structure, and transform hard and old scale into loose and soft scale. As a result, the scale gradually peels off, even into fragments and debris, achieving scale removal.