Ultraviolet Photocatalytic Exhaust Gas Deodorization and Purification Unit
Ultraviolet Photocatalytic Exhaust Gas Deodorization and Purification Unit
Specialized high-energy UV ultraviolet light beams are used to irradiate organic waste gases and malodorous gases, breaking the molecular bonds within these compounds. This instantly cleaves and disrupts the molecular chains of ammonia, hydrogen sulfide, carbon disulfide, methyl mercaptan, methyl sulfide, dimethyl disulfide, trimethylamine, styrene, as well as VOCs such as benzene, toluene, and xylene, thereby degrading them into low-molecular-weight byproducts—such as carbon dioxide and water.
Library Download
| Parameter
Product Technical Principles
1. Specialized high-energy UV ultraviolet beams are used to irradiate organic waste gases and malodorous gases, breaking the molecular bonds of these compounds. This instantly cleaves and disrupts the molecular structures of ammonia, hydrogen sulfide, carbon disulfide, methyl mercaptan, methyl sulfide, dimethyl disulfide, trimethylamine, styrene, as well as VOCs such as benzene, toluene, and xylene, thereby degrading them into low-molecular-weight byproducts—such as carbon dioxide and water.
2. High-energy ozone decomposes oxygen molecules in the air to generate free oxygen, or active oxygen. Because free oxygen has an imbalance of positive and negative electrons, it must combine with oxygen molecules to form ozone. This process oxidizes and binds pollutant molecules in their free state with ozone, converting them into small-molecule compounds that are harmless or low-hazard, along with byproducts such as CO2 and H2O. UV + O2 → O* + O3 (ozone). [Active oxygen] O* + O2 → O3 (ozone).
3. A specially formulated TiO₂ photocatalytic oxidation filter cotton is used; under UV irradiation, it facilitates a synergistic catalytic reaction with the air, generating substantial amounts of ozone. This ozone then promotes the catalytic oxidative degradation of organic exhaust gases and malodorous gases, breaking them down into low-molecular-weight compounds, water, and carbon dioxide, thereby achieving deodorization and bacterial inactivation.
1. Specialized high-energy UV ultraviolet beams are used to irradiate organic waste gases and malodorous gases, breaking the molecular bonds of these compounds. This instantly cleaves and disrupts the molecular structures of ammonia, hydrogen sulfide, carbon disulfide, methyl mercaptan, methyl sulfide, dimethyl disulfide, trimethylamine, styrene, as well as VOCs such as benzene, toluene, and xylene, thereby degrading them into low-molecular-weight byproducts—such as carbon dioxide and water.
2. High-energy ozone decomposes oxygen molecules in the air to generate free oxygen, or active oxygen. Because free oxygen has an imbalance of positive and negative electrons, it must combine with oxygen molecules to form ozone. This process oxidizes and binds pollutant molecules in their free state with ozone, converting them into small-molecule compounds that are harmless or low-hazard, along with byproducts such as CO2 and H2O. UV + O2 → O* + O3 (ozone). [Active oxygen] O* + O2 → O3 (ozone).
3. A specially formulated TiO₂ photocatalytic oxidation filter cotton is used; under UV irradiation, it facilitates a synergistic catalytic reaction with the air, generating substantial amounts of ozone. This ozone then promotes the catalytic oxidative degradation of organic exhaust gases and malodorous gases, breaking them down into low-molecular-weight compounds, water, and carbon dioxide, thereby achieving deodorization and bacterial inactivation.
Installation Diagram
Product Performance Overview
I. Highly Efficient Odor Removal: Effectively eliminates major pollutants such as volatile organic compounds (VOCs), inorganic substances, hydrogen sulfide, ammonia, thiols, and other malodorous compounds, achieving a deodorization efficiency of over 99.9%. The deodorization performance significantly exceeds the National Emission Standard for Odorous Pollutants (GB 14554-93) promulgated in 1993.
II. No Additives Required: Simply install the appropriate piping and exhaust ventilation system to direct malodorous gases through this equipment for deodorization, decomposition, and purification—no chemical additives are needed to participate in the reaction.
3. High adaptability: Capable of deodorizing and purifying high-concentration, large-volume malodorous gases of various types, and can operate continuously 24 hours a day.
The equipment operates stably and reliably. Fourth, low operating costs: this equipment has no mechanical moving parts, produces no noise, and requires no dedicated personnel for management or routine maintenance—only periodic inspections are needed. Moreover, the equipment boasts low energy consumption (per 1,000 m… 3 /h, consuming only about 0.1 kWh of electricity), the equipment features extremely low airflow resistance—less than 30 Pa—thereby significantly reducing energy consumption for exhaust ventilation.
V. No Pre-treatment Required: Odorous gases do not require any special pre-treatment, such as heating or humidification. The equipment can operate normally in ambient temperatures ranging from –30°C to 65°C and relative humidity levels between 40% and 95%.
6. The equipment occupies a small footprint and is lightweight: it is suitable for applications with compact layouts and limited space, with a footprint of less than 1. m /Process 10,000 m 2 /h air volume.
VII. High-Quality Imported Materials: Excellent fire resistance and corrosion resistance, stable performance, and long service life.
VIII. High-Tech, Environmentally Friendly Patented Products: These cutting-edge, environmentally friendly purification products are developed and engineered using the most advanced international technological concepts, following extensive, repeated testing conducted by experts and our company’s engineering technicians. They possess fully independent intellectual property rights, can thoroughly decompose toxic and harmful substances in malodorous gases, and achieve perfect deodorization. The decomposed malodorous gases can be safely discharged without posing any harm, with absolutely no secondary pollution, while also delivering highly effective disinfection and sterilization.
I. Highly Efficient Odor Removal: Effectively eliminates major pollutants such as volatile organic compounds (VOCs), inorganic substances, hydrogen sulfide, ammonia, thiols, and other malodorous compounds, achieving a deodorization efficiency of over 99.9%. The deodorization performance significantly exceeds the National Emission Standard for Odorous Pollutants (GB 14554-93) promulgated in 1993.
II. No Additives Required: Simply install the appropriate piping and exhaust ventilation system to direct malodorous gases through this equipment for deodorization, decomposition, and purification—no chemical additives are needed to participate in the reaction.
3. High adaptability: Capable of deodorizing and purifying high-concentration, large-volume malodorous gases of various types, and can operate continuously 24 hours a day.
The equipment operates stably and reliably. Fourth, low operating costs: this equipment has no mechanical moving parts, produces no noise, and requires no dedicated personnel for management or routine maintenance—only periodic inspections are needed. Moreover, the equipment boasts low energy consumption (per 1,000 m… 3 /h, consuming only about 0.1 kWh of electricity), the equipment features extremely low airflow resistance—less than 30 Pa—thereby significantly reducing energy consumption for exhaust ventilation.
V. No Pre-treatment Required: Odorous gases do not require any special pre-treatment, such as heating or humidification. The equipment can operate normally in ambient temperatures ranging from –30°C to 65°C and relative humidity levels between 40% and 95%.
6. The equipment occupies a small footprint and is lightweight: it is suitable for applications with compact layouts and limited space, with a footprint of less than 1. m /Process 10,000 m 2 /h air volume.
VII. High-Quality Imported Materials: Excellent fire resistance and corrosion resistance, stable performance, and long service life.
VIII. High-Tech, Environmentally Friendly Patented Products: These cutting-edge, environmentally friendly purification products are developed and engineered using the most advanced international technological concepts, following extensive, repeated testing conducted by experts and our company’s engineering technicians. They possess fully independent intellectual property rights, can thoroughly decompose toxic and harmful substances in malodorous gases, and achieve perfect deodorization. The decomposed malodorous gases can be safely discharged without posing any harm, with absolutely no secondary pollution, while also delivering highly effective disinfection and sterilization.
Related parameters
Note: The above parameters are for reference only and shall not be construed as the customer’s actual operating conditions.
keywords:
| Related Products
| Product Message
* Note: Please be sure to fill in the information accurately and keep the communication unblocked. We will get in touch with you as soon as possible.
Specializing in the fields of anti-corrosion fans and environmental protection equipment
Headquarters: Room 304, Headquarters Building, No. 15 Tian'an Energy saving Technology Park, Panyu, Guangzhou, China
Factory: No. 33-2, EMU Dongche Street, Shawan Town, Panyu District, Guangzhou City, China
Follow us