The photo oxygen exhaust gas deodorization purifier uses a high ozone UV beam to irradiate odorous gases, cracking odorous gases such as ammonia, amine, hydrogen sulfide, methylthiohydride, methyl mercaptan, methyl sulfide, dimethyl disulfide, carbon disulfide, and styrene, sulfides H2S, VOCs, benzene, toluene, and xylene. The molecular chain structure of inorganic high molecular weight odorous compounds is degraded and transformed into low molecular weight compounds such as CO2 and H2O under UV beam irradiation.

The photo oxygen exhaust gas deodorization purifier uses a high ozone UV beam 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. UV+O2 → O -+O * (reactive oxygen species) O+O2 → O3 (ozone), it is well known that ozone has an oxidizing effect on substances and has an effect on odorous gases and other irritating odors.

The photo oxygen exhaust gas deodorization purifier uses exhaust equipment to input the odorous gas into this purification equipment. The purification equipment uses UV ultraviolet beams and ozone to 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 exhaust pipes.

The photo oxygen exhaust gas deodorization purifier uses UV beams to break down molecular bonds in odorous gases, destroying nucleic acids (DNA), and then undergoes oxidation reactions through ozone to achieve deodorization and killing.

The photo oxygen waste gas purifier has a wide range of applications, and can treat and purify VOCs waste gas, non methane total hydrocarbons, as well as the eight major odorous substances specified in the "Odor Pollution Control Standards" (ammonia, hydrogen sulfide, carbon disulfide, methyl mercaptan, methyl sulfide, dimethyl disulfide, amine, styrene) and waste gases such as benzene, toluene, and xylene. It is particularly suitable for treating various odorous waste gases, such as putrid waste gas, spray painting waste gas, spray painting waste gas, electrophoresis waste gas, electroplating waste gas, printing and dyeing waste gas, biopharmaceutical waste gas, wastewater and sewage odor waste gas, sludge odor treatment, etc. It can treat various exhaust gases, including those that are not suitable for plasma treatment (such as spray painting exhaust gas, spray painting exhaust gas, chemical exhaust gas, gasoline and alcohol exhaust gas, Tianshui exhaust gas, paint factory exhaust gas, fertilizer factory exhaust gas, etc.), if a photo oxygen exhaust gas purifier is used

There is enough energy to generate free radicals, triggering a series of complex physical and chemical reactions. The gas chemical reactions caused by the action of ozone generators are ionization, dissociation, excitation, atomic and molecular binding, and addition reactions that occur in the gas phase. This energy is sufficient to break chemical bonds in most gaseous substances, leading to their degradation. From the perspective of air purification efficiency, we have chosen a combination of - C band ultraviolet radiation and ozone generator with a high corona current device using pulse corona discharge adsorption technology.

Working principle of photo oxygen exhaust gas purifier:

1. Odor removal: It can remove volatile organic compounds (VOCs) and various odors, and the deodorization efficiency can reach above.

2. Using ultraviolet light waves in the wavelength range of 157-189nm to decompose oxygen molecules in the air and produce 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; Pollutant molecules that are in a free state after being cleaved by ultraviolet light waves combine with ozone oxidation to form small molecules or low-risk compounds. Such as CO2 carbon dioxide molecules, H2O water molecules, etc.

3. Using ultraviolet light beams in the wavelength range of 157-189nm to irradiate exhaust gas and odorous gases, the molecular bonds of the exhaust gas and odorous gases are cracked, instantly opening and changing their molecular structures, destroying their nucleic acids, generating a series of photolytic fission reactions, rearranging DNA molecules, and degrading them into low molecular weight chemicals such as CO2, carbon dioxide, and H2O water molecules.

4. The TiO2 titanium dioxide photocatalyst is used to catalyze the oxidation of filter cotton. Under the irradiation of UV ultraviolet light, a photocatalytic reaction is generated, which enhances and strengthens the energy fusion of ultraviolet light waves. At the same time, it catalyzes the generation of more reactive oxygen species and odorous gases, which undergo catalytic oxidation and decomposition reactions on the exhaust gas and odorous gases, leading to their degradation and conversion into low molecular weight compounds, water molecules, and carbon dioxide, thereby achieving the purpose of deodorization and killing.