Special ultraviolet lamp: use special high-energy and high-ozone ultraviolet beam to irradiate waste gas and crack industrial waste gas, such as:
Ammonia, trimethylamine, hydrogen sulfide, methyl hydrogen sulfide, methyl mercaptan, methyl sulfide, butyl acetate, ethyl acetate, dimethyl disulfide and carbon disulfide.
The molecular chain structure of styrene, sulfide H2S, VOC, benzene, toluene and xylene makes organic or inorganic polymers stink.
Under the irradiation of high-energy ultraviolet rays, the molecular chains of compounds are degraded and converted into low-molecular compounds, such as CO2 and H2O. use
The high-energy and high-ozone ultraviolet beam decomposes oxygen molecules in the air to produce free oxygen, that is, active oxygen, which is positively and negatively charged.
Neutrons are unbalanced, so they need to combine with oxygen molecules to produce ozone. ? Uv+O2 → O-+O * (reactive oxygen species) O+O2→O3 (smelly
Oxygen), as we all know, ozone has a strong oxidation effect on organic matter and has an immediate effect on irritating smells such as industrial waste gas.
The cleaning effect. After the industrial waste gas is input into the purification equipment through the exhaust equipment, the purification equipment uses high-energy UV ultraviolet beams.
Ozone carries out synergistic decomposition and oxidation reaction on industrial waste gas, so that industrial waste gas substances are degraded and converted into low molecular compounds, water and water.
Carbon dioxide is then discharged from the room through the exhaust pipe. Using high energy C beam to crack the molecular bonds of bacteria in industrial waste gas and destroy microorganisms.
The nucleic acid (DNA) of bacteria is oxidized by ozone, which completely purifies and kills bacteria.
Considering the gas efficiency, we choose a device with high corona current, which combines ultraviolet and ozone in -C band and adopts pulse corona discharge for adsorption.
Combined with the principle of eliminating harmful gases by technology, the -C band ultraviolet ray is mainly used to remove hydrogen sulfide, ammonia, benzene and methane.
Decomposition and fission of gases such as benzene, xylene, formaldehyde, ethyl acetate, ethane, acetone, ethyl carbamate and resin make organic matter become
Inorganic compounds.
Ammonia, trimethylamine, hydrogen sulfide, methyl hydrogen sulfide, methyl mercaptan, methyl sulfide, butyl acetate, ethyl acetate, dimethyl disulfide and carbon disulfide.
The molecular chain structure of styrene, sulfide H2S, VOC, benzene, toluene and xylene makes organic or inorganic polymers stink.
Under the irradiation of high-energy ultraviolet rays, the molecular chains of compounds are degraded and converted into low-molecular compounds, such as CO2 and H2O. use
The high-energy and high-ozone ultraviolet beam decomposes oxygen molecules in the air to produce free oxygen, that is, active oxygen, which is positively and negatively charged.
Neutrons are unbalanced, so they need to combine with oxygen molecules to produce ozone. ? Uv+O2 → O-+O * (reactive oxygen species) O+O2→O3 (smelly
Oxygen), as we all know, ozone has a strong oxidation effect on organic matter and has an immediate effect on irritating smells such as industrial waste gas.
The cleaning effect. After the industrial waste gas is input into the purification equipment through the exhaust equipment, the purification equipment uses high-energy UV ultraviolet beams.
Ozone carries out synergistic decomposition and oxidation reaction on industrial waste gas, so that industrial waste gas substances are degraded and converted into low molecular compounds, water and water.
Carbon dioxide is then discharged from the room through the exhaust pipe. Using high energy C beam to crack the molecular bonds of bacteria in industrial waste gas and destroy microorganisms.
The nucleic acid (DNA) of bacteria is oxidized by ozone, which completely purifies and kills bacteria.
Considering the gas efficiency, we choose a device with high corona current, which combines ultraviolet and ozone in -C band and adopts pulse corona discharge for adsorption.
Combined with the principle of eliminating harmful gases by technology, the -C band ultraviolet ray is mainly used to remove hydrogen sulfide, ammonia, benzene and methane.
The decomposition and fission of benzene, xylene, formaldehyde, ethyl acetate, ethane, acetone, urethane, resin and other gases make organic compounds become inorganic compounds.