Packing absorption tower product technology principle: This product uses a special high-energy high-ozone electrolysis wastewater treatment equipment system to irradiate malodorous gases, cracking malodorous gases such as: ammonia, methyl mercaptan, carbon disulfide, sulfur compounds H2S, VOCs, etc. The molecular bond enables the pollutant molecules in the free state to be oxidized with ozone to form small molecule harmless or low harm compounds, such as CO2, H2O, etc.
The basic principle of the purification of waste odor from natural plant extracts is that some special natural plants are extracted and combined with waste odor gas molecules to decompose, polymerize, replace, replace and add chemical reactions, which promotes the change of waste odor gas molecules. Some molecular structures make it lose odor, and later produce odorless, non-toxic substances.
The purification tower is composed of an outer cylinder and a spraying device, a packing rack, a packing, a water pump and the like. The acid mist exhaust gas is sucked into the purification tower by a fan, and is pressed into the front layer through the spraying and packing layer. The exhaust gas purification tower company then enters In the second layer of purification tower, the exhaust gas that has not been completely processed is re-sprayed with lye and stirred into contact with the filler. After the filler absorbs the tower, it undergoes the neutralization reaction, and then enters the third spray treatment to remove the swirl plate. Liquid, the treated exhaust gas can meet national emission standards.
Adsorption: This unit adopts the adsorption process to complete the collection, adsorption, and operation of the exhaust gas emitted from the production line, so that the concentration of organic solvents in the exhaust gas reaches the requirements of relevant national standards. Adopt high-performance activated carbon as adsorption material, small and efficient multifunctional vegetable processing wastewater treatment equipment waste gas purification tower, make full use of the advantages of activated carbon adsorption. Desorption: Wet desorption or dry starch wastewater treatment equipment desorption. Organic matter escapes when heated and condenses into a condenser into a liquid. The solvent recovered by desorption is a mixed solution of organic matter and water. It is automatically settled by gravity and is realized by gravity. Oily water layer. Controlled adsorption-desorption unit device adopts full-automatic program control, and the system can work automatically and cyclically. Air volume; Adsorption-desorption combined design, air volume control system is installed to reduce the power consumption of equipment operation. The small and efficient multifunctional exhaust gas purification tower is based on the air volume balancing system to ensure that the processing air volume is extracted according to the exhaust air volume of the production line without causing problems such as customer's heat loss or excessive solvent residues.
The high-energy and high-ozone UV ultraviolet light beams are used to decompose oxygen molecules in the air to generate free oxygen. Due to the imbalance of the positive and negative electrons carried by the free oxygen, it is necessary to combine with the oxygen molecules to generate ozone. After the malodorous gas is input to the purification equipment through the exhaust equipment, the purification equipment uses the high-energy UV light beam and ozone to synergistically decompose and oxidize the malodorous gas, so that the malodorous gas substances are degraded and converted into low-molecular compounds, water and carbon dioxide. The air duct is discharged outside. The high-energy UV beam is used to break the molecular bonds of bacteria in the malodorous gas, destroy the nucleic acid of the bacteria, and then perform the oxidation reaction through ozone to achieve the purpose of deodorizing and killing bacteria.
After the natural plant liquid
is atomized by a high-pressure atomizing pump, it is split into droplets with a very small diameter. This can make the plant liquid fully contact with the odor in the area to be deodorized. The reaction methods include decomposition, polymerization, Acid-base, neutralization, substitution, substitution and addition. Therefore, the deodorizing components are eliminated, and the final product after deodorization does not form secondary pollution and is harmless to the human body.