OD 150mm 20um Titanium Aeration Head for Ozone Sparger
USD $5 - $100 /Piece
Min.Order:1 Piece
Baoji Yinggao Metal Materials Co., Ltd.
The OD 150mm 20um Titanium Aeration Head for Ozone Sparger is a cutting-edge product designed for efficient ozone aeration in water treatment systems. With a diameter of 150mm, this aeration head is crafted from high-quality titanium material, ensuring excellent durability and corrosion resistance. The 20um porous structure of the aeration head allows for the dispersion of fine ozone bubbles into the water, facilitating effective mass transfer and maximizing the ozone's oxidation potential.
This innovative aeration head is specifically engineered to enhance the efficiency of ozone sparging processes, making it an ideal choice for various applications in water treatment, wastewater treatment, and industrial processes. Its robust construction and use of high-grade titanium material guarantee long-term performance and resistance to corrosion. The precisely designed 20um porous structure enables the aeration head to disperse ozone bubbles efficiently, promoting superior mass transfer and optimizing oxidation performance. With its numerous advantages, the OD 150mm 20um Titanium Aeration Head for Ozone Sparger is a reliable solution for achieving efficient ozone dissolution and maximizing treatment efficiency in diverse water treatment.
Parameter
Material: GR1 titanium
Diameter: 150mm
Pore size: 20um
Connection: Threaded interface
Technique: Sintering and Welded (no adhesives)
Features
High-quality titanium material: This aeration head is made of high-quality titanium material, which has excellent durability and corrosion resistance. Titanium material has good resistance to chemicals and corrosive substances in the water treatment environment, ensuring long-term reliable operation of the aeration head.
20um porous structure: The surface of the aeration head has a 20 micron porous structure. Through these tiny holes, oxygen or ozone gas can enter the water body through the aeration head. In this way, the aeration head can generate a large number of fine bubbles, increase the contact area between the bubbles and the water body, and promote the gas mass transfer process.
Efficient mass transfer: Due to the existence of the 20um porous structure, small bubbles can be evenly dispersed in the water and come into contact with pollutants or organic substances in the water. This increase in contact area effectively promotes the reaction between oxygen or ozone and pollutants in water, improves mass transfer efficiency, and enhances oxidation capacity.
Wide range of applications: The design and features of this aeration head make it suitable for use in a variety of water treatment systems, including water treatment plants, wastewater treatment plants and industrial process applications. It can be used in a variety of water treatment methods such as oxygenation, ozone aeration, and air flotation systems, providing reliable and efficient solutions for water treatment needs in different fields.
How does the 20um porous structure of the aeration head contribute to effective mass transfer?
The 20um porous structure of the aeration head plays a crucial role in facilitating effective mass transfer in ozone aeration. This structure refers to the presence of microscopic pores or openings with an average size of 20 micrometers (20um) on the surface of the aeration head. These pores allow the passage of ozone gas through the aeration head and into the water.
When ozone gas is introduced into the aeration head, it passes through these small pores, creating a multitude of fine ozone bubbles. The small size of these bubbles provides a large surface area for interaction with the water. As these bubbles disperse into the water, they come into contact with the contaminants or pollutants present in the water.
The fine ozone bubbles generated by the 20um porous structure enhance the contact area between the ozone and the water, promoting efficient mass transfer. This increased contact area allows for greater exchange of ozone molecules with the water, facilitating the transfer of dissolved ozone into the water and maximizing the ozone's oxidation potential.
In summary, the 20um porous structure of the aeration head enables the generation of fine ozone bubbles, increasing the surface area and contact between ozone and water. This, in turn, enhances the mass transfer capabilities of the aeration process, improving the efficiency of ozone dissolution and facilitating effective water treatment.