UV Efficient Photolysis for Waste Gas Treatment

Technical Principles
(1) This product utilizes a specially designed high-energy and high ozone UV ultraviolet beam to irradiate foul smelling gases, cracking the molecular chain structures of foul smelling gases such as ammonia, trimethylamine, sulfurized methyl mercaptan, methyl sulfide, dimethyl disulfide, carbon disulfide, styrene, VOC, toluene, xylene, etc., causing organic or inorganic polymer foul smelling compound molecular chains to degrade and transform into low molecular compounds such as C02, H20, etc. under high-energy UV beam irradiation.
(2) The use of high-energy and high ozone UV ultraviolet beams to decompose oxygen molecules in the air produces free oxygen. Due to the imbalance of positive and negative electrons carried by free oxygen, it needs to combine with oxygen molecules to generate odor. UV+02-0-+0 * (free oxygen) O+O2-0A (ozone) is well-known for its strong oxidation effect on organic matter, and has a clear effect on odor gases and other irritating odors.
(3) After the foul odor gas is inputted into this purification equipment through exhaust equipment, the purification equipment uses high-energy UV ultraviolet beams and ozone to synergistically decompose and oxidize the foul odor gas, causing it to degrade and transform into low molecular weight compounds, water, and carbon dioxide, which are then discharged outdoors through exhaust pipes.
(4) The use of high-energy UV beams to break down the molecular bonds of bacteria in odorous gases, destroy their nucleic acid (DNA), and then undergo oxidation reactions through ozone, can completely achieve the goal of deodorization and killing bacteria.

Theoretical Introduction to UV Efficient Photolysis Purification Technology for Odor (Industrial Waste Gas)