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What are the customized mixing devices and methods for water treatment ozone generators produced by ozone generators?
Custom-made ozone generators for water treatment are primarily used in industries such as wastewater treatment, industrial effluent treatment, domestic sewage treatment, tap water purification, and water purification in general. They deliver remarkable results. Custom production of ozone generators allows us to tailor the ozone machine precisely to your specific operational requirements.
Custom-made ozone generators The water treatment ozone generators are primarily used in industries such as wastewater treatment, industrial effluent treatment, domestic sewage treatment, tap water purification, and water purification in general. They deliver remarkable results. Custom-made ozone generators can be tailored to meet your specific operational requirements.
1. Traditional Aeration Method – A Time-Honored Traditional Mixing Method
Operating modes—downstream gas-water operation, or upstream or multi-stage series overlapping operation, downstream continuous or intermittent batch operation. Advantages of ozone generators: low energy consumption. Disadvantages: when air distribution is uneven and mixing is poor, nozzles tend to become clogged, necessitating the use of large air compressors and expensive oxidation towers.
2. Gas-liquid intensive mixing chamber—a safe, energy-efficient, and highly effective mixing method that represents an upgraded version improved upon the Venturi jet mixer. Ozone generators are custom-manufactured.
Operating principle—fully leveraging the turbulence of water to generate greater negative pressure, drawing in ozone and creating vortices within the mixing chamber, where the ozone swirls, rotates, and collides with itself. Practical experience has shown that, under the same ozone generation system, the first-stage ozone absorption rate exceeds 90%, and the solubility of ozone in water is approximately twice that of a jet mixer.
3. Gas-liquid mixing pump—a safe and efficient mixing method
The suction port of the gas-liquid mixing pump can utilize negative pressure to draw in gas, while the high-speed rotating impeller mixes the liquid and gas. Due to pressurized mixing within the pump, the gas and liquid are completely dissolved, achieving an exceptionally high dissolution efficiency. The gas-liquid mixing pump can draw in, mix, dissolve, and directly deliver high-concentration liquids for use. Custom manufacturing of ozone generators available.
4. Mixed-Tower Method
This method involves using a tall apparatus tower to spray ozone into the water beneath the tower and creating pipelines at the tower’s base, allowing the ozone-water mixture to come into optimal contact with the ozone. There are two variations of this method: packed and unpacked. The materials used are highly refined, and the results are excellent; however, the cost is relatively high.
The ozone generator cooler and water-cooling system is a cooling device used to cool the ozone generator via a chilled-water circulation, thereby producing ozone. The key components of the ozone generator’s refrigeration unit include a scroll compressor, a heat exchanger, an evaporator, a water tank, a water pump, condenser coils, a protection system, a power supply, an automatic PLC temperature controller, and a refrigeration circuit. The ozone generator’s cooler and water-cooling system is equipped with a water-cooling circulation system that absorbs heat through circulating coils, transfers it to the condenser, and then releases it from the system, ensuring continuous cooling around the ozone generator during operation.
Custom-made ozone generators The ozone generator produces ozone by adding oxygen to atmospheric oxygen or through a photochemical process at low ambient temperatures. At high temperatures, the ozone components decompose. The ozone generator’s cooler and water-cooling system regulate temperature using temperature-sensitive sensors and an automatic PLC controller. High-quality water treatment equipment and stainless steel heat exchangers prevent scaling and corrosion damage to the heat exchanger, ensuring the unit’s efficient and optimal performance.
Key words: Custom-made ozone generators
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