Wet oxidation superoxide micro nano bubble waste gas treatment device

Click:1072Date:2024-04-15 02:56:41

Wet advanced oxidation micro nano bubble waste gas treatment technology

Shanghai Zhongjing Wet Advanced Oxidation Micro Nano Bubble Waste Gas Treatment Technology is a technology that utilizes micro nano bubbles to fully contact harmful substances in waste gas, and decomposes harmful substances into harmless substances through strong oxidation-reduction ability. Its main principle is to use the characteristics of micro nano bubbles, such as large specific surface area, slow rise speed, self pressurized dissolution, surface charge, generation of a large number of free radicals, high mass transfer efficiency, and high gas dissolution rate, to make the contact between nano bubbles and harmful substances in waste gas more fully decompose harmful substances in waste gas into carbon dioxide and moisture particles. The wet advanced oxidation superoxide micro nano bubble technology can adapt to the deodorization and purification treatment of different organic waste gases and odorous gas substances such as high concentration, atmospheric volume or ultra large gas volume, high humidity, dust, high temperature, acidity, alkalinity, etc;

The working principle of wet advanced oxidation superoxide micro nano bubble technology in the treatment of odorous waste gas mainly includes the following aspects:

1. Oxidative decomposition: The highly reactive oxygen species produced, such as hydroxyl radicals (· OH), can oxidize and decompose organic pollutants in foul smelling waste gas.

2. Micro nano bubbles: They have characteristics such as large specific surface area and long residence time, which increase the contact area between gas and liquid and improve mass transfer efficiency.

3. Strengthen oxidation reaction: Improve the utilization rate and reaction rate of oxidants, and accelerate the decomposition of odorous substances.

The advantages of this technology include:

4. Efficiency: It can quickly decompose pollutants in foul smelling waste gas.

5. Strong adaptability: It can handle various types of foul smelling waste gases.

Application fields of wet advanced oxidation superoxide micro nano bubble technology:

● Wastewater treatment: Organic wastewater contains volatile organic gases that will evaporate during the treatment process; Sulfates contained in organic wastewater can be converted into sulfur ions under anaerobic conditions, resulting in the production of foul smelling gases such as hydrogen sulfide.

Industrial production: In the production process of chemical, pharmaceutical, printing and dyeing, food and other industries, various foul odors and waste gases are generated, such as ammonia, hydrogen sulfide, methyl mercaptan, methyl sulfide, carbon disulfide, dimethyl disulfide, etc.

Garbage treatment: During processes such as landfilling, incineration, and composting, foul smelling waste gases are generated, such as ammonia, hydrogen sulfide, methyl mercaptan, methyl sulfide, carbon disulfide, and dimethyl disulfide.

● Farm: In animal husbandry, animal manure and urine contain foul smelling gases such as ammonia and hydrogen sulfide. If these gases are not treated in a timely manner, they can pose a threat to the surrounding environment and human health.