Dongguan Blue Green Environmental Protection UV Photocatalyst Catalytic Oxidation Exhaust Gas Deodorization Purifier Manufacturer

One of the most advanced technologies in industrial waste gas treatment currently, UV photocatalytic equipmentThe development fully considers the uncertainty and complexity of industrial waste gas properties, providing great feasibility, reliability, flexibility, and effectiveness in engineering design, matching, installation, commissioning, maintenance, and other aspects.

Waste gas treatment equipment UV photocatalytic equipment uses high-energy and high ozone UV beams to decompose oxygen molecules in the air, producing free oxygen, also known as reactive oxygen species. Due to the imbalance of positive and negative electrons carried by free oxygen, it needs to combine with oxygen molecules to produce ozone. Ozone has a strong oxidizing effect on organic matter decomposed by ultraviolet beam irradiation, and has a good removal effect on odorous gases and other irritating odors.
The odorous gas enters the reaction chamber equipped with a UV high-efficiency photocatalytic oxidation module through the exhaust gas collection and exhaust equipment. The high-energy UV beam and ozone synergistically decompose and oxidize the odorous gas, causing it to degrade and convert into low molecular weight compounds, water, and carbon dioxide, which are then discharged outdoors through the exhaust pipe.

Working principle of UV photocatalytic equipment for waste gas treatment:

By using a specially designed high-energy high ozone UV beam to irradiate and decompose the exhaust gas, the molecular chains of organic or inorganic high molecular weight waste gas compounds are degraded and transformed into low molecular weight compounds such as CO2, H2O, etc. under high-energy UV beam irradiation, thereby achieving effective treatment and meeting emission standards.

By using high-energy UV beams to break down the molecular bonds of bacteria in odorous gases, the nucleic acid (DNA) of bacteria is destroyed, and then oxidized by ozone to completely achieve deodorization and kill bacteria.