Sterilization Device
Full Line-Up
DMFC’s Sterilization Filter Device line-up includes 12 advanced products designed for efficient water treatment. The range features both UV Filters and AOP Filters, which use ultraviolet light and advanced oxidation processes to eliminate bacteria, viruses, and organic pollutants from water. UV filters offer chemical-free disinfection for pipelines and open channels, while AOP filters remove more complex contaminants with powerful hydroxyl radicals. This comprehensive line-up ensures effective sterilization and purification for industrial, municipal, and environmental applications.
UV Water Sterilizer
Standard Type
Ultraviolet Water Sterilizer
This device uses ultraviolet lamps, not chemicals or high temperatures, and is installed in pipelines to sterilize bacteria, viruses, fungi, algae, molds, and other microorganisms. It is a safe sterilizer that does not leave residues or by-products in the water.
Advantages of Ultraviolet Water Sterilizers:
- Safe because it does not require chemical treatment.
- Excellent sterilization efficiency.
- More economical than tower sterilizers.
- Relatively easy to install.
- No breakdowns and very easy to maintain.
Applications:
- Food, cosmetics, dining.
- Aquaculture, swimming pools, hot springs.
- Drinking water, clean water, beer, underground water, and other products.
- Industrial water, pharmaceutical purification, hospitals, electronics, semiconductors.
- Cooling Towers.
UV Sensor (PLC)
Ultraviolet Water Sterilizer
This sterilizer uses ultraviolet lamps, not chemicals or heat, to install in pipelines, sterilizing bacteria, viruses, fungi, algae, molds, and other microorganisms. It is a safe sterilizer that leaves no residue or by-products in the water.
Advantages of Ultraviolet Water Sterilizers:
- Safe because it doesn’t require chemical treatment.
- Excellent sterilization efficiency.
- More economical than tower sterilizers.
- Comparatively easy to install.
- No malfunctions and very easy to maintain.
Applications:
- Food, cosmetics, dining.
- Aquaculture, swimming pools, hot springs.
- Drinking water, purified water, beer, underground water, and other products.
- Industrial water, pharmaceutical purification, hospitals, electronics, semiconductors.
- Cooling Tower.
Horizontal (Water Proof Type)
Ultraviolet Water Sterilizer
This sterilizer uses ultraviolet lamps instead of chemicals or heat to be installed in pipelines, sterilizing bacteria, viruses, fungi, algae, molds, and other microorganisms. It is a safe sterilizer that leaves no residues or by-products in the water.
Advantages of Ultraviolet Water Sterilizers:
- Safe as it does not require chemical treatment.
- Excellent sterilization efficiency.
- More economical compared to tower sterilizers.
- Relatively easy to install.
- No malfunctions and very easy to maintain.
Applications:
- Food, cosmetics, dining.
- Aquaculture, swimming pools, hot springs.
- Drinking water, purified water, beer, underground water, and other products.
- Industrial water, pharmaceutical purification, hospitals, electronics, semiconductors.
- Cooling Towers.
Vertical Type
Ultraviolet Water Sterilizer
This sterilizer uses ultraviolet lamps instead of chemicals or heat to be installed in pipelines, sterilizing bacteria, viruses, fungi, algae, molds, and other microorganisms. It is a safe sterilizer that leaves no residues or by-products in the water.
Advantages of Ultraviolet Water Sterilizers:
- Safe as it does not require chemical treatment.
- Excellent sterilization efficiency.
- More economical compared to tower sterilizers.
- Relatively easy to install.
- No malfunctions and very easy to maintain.
Applications:
- Food, cosmetics, dining.
- Aquaculture, swimming pools, hot springs.
- Drinking water, purified water, beer, underground water, and other products.
- Industrial water, pharmaceutical purification, hospitals, electronics, semiconductors.
- Cooling Towers.
Vertical (Export Type)
Ultraviolet Water Sterilizer
This sterilizer uses ultraviolet lamps instead of chemicals or heat to install in pipelines, sterilizing bacteria, viruses, fungi, algae, molds, and other microorganisms. It is a safe sterilizer that leaves no residues or by-products in the water.
Advantages of Ultraviolet Water Sterilizers:
- Safe as it does not require chemical treatment.
- Excellent sterilization efficiency.
- More economical compared to tower sterilizers.
- Relatively easy to install.
- No malfunctions and very easy to maintain.
Applications:
- Food, cosmetics, dining.
- Aquaculture, swimming pools, hot springs.
- Drinking water, purified water, beer, underground water, and other products.
- Industrial water, pharmaceutical purification, hospitals, electronics, semiconductors.
- Cooling Towers.
Naval Vessels Type
Ultraviolet Water Sterilizer
This sterilizer uses ultraviolet lamps instead of chemicals or heat to install in pipelines, sterilizing bacteria, viruses, fungi, algae, molds, and other microorganisms. It is a safe sterilizer that leaves no residues or by-products in the water.
Advantages of Ultraviolet Water Sterilizers:
- Safe because no chemical treatment is required.
- Excellent sterilization efficiency.
- More economical compared to tower sterilizers.
- Relatively easy to install.
- No malfunctions and very easy to maintain.
Applications:
- Food, cosmetics, dining.
- Aquaculture, swimming pools, hot springs.
- Drinking water, purified water, beer, underground water, and other products.
- Industrial water, pharmaceutical purification, hospitals, electronics, semiconductors.
- Cooling Towers.
UV for Seawater (PVC)
Ultraviolet Water Sterilizer
This sterilizer uses ultraviolet lamps instead of chemicals or heat to be installed in pipelines, sterilizing bacteria, viruses, fungi, algae, molds, and other microorganisms. It is a safe sterilizer that leaves no residues or by-products in the water.
Advantages of Ultraviolet Water Sterilizers:
- Safe because no chemical treatment is required.
- Excellent sterilization efficiency.
- More economical compared to tower sterilizers.
- Relatively easy to install.
- No malfunctions and very easy to maintain.
Applications:
- Food, cosmetics, dining.
- Aquaculture, swimming pools, hot springs.
- Drinking water, purified water, beer, underground water, and other products.
- Industrial water, pharmaceutical purification, hospitals, electronics, semiconductors.
- Cooling Towers.
AOP System (Advanced Oxidation Process System)
The Ultraviolet Sewage/Wastewater Sterilizers (Open Channel and Pipeline Types) and the AOP System use UV light and advanced oxidation to disinfect and remove pollutants from wastewater. These systems offer efficient, chemical-free solutions for treating sewage, ensuring safe and clean water for industrial and municipal use.
AOP Central Water Purification System
Principle of the AOP System
- Generation of OH radicals
- Using UV light, ozone is decomposed in water to generate hydroxyl radicals → Intermediate product: Generation of OH radicals.
- Produces active oxygen species such as ozone, hydrogen peroxide, and hydroxyl radicals, which have much higher oxidation power than ozone (3 to 10 times higher than ozone, more than 1,000 times higher than chlorine).
- UV decomposition of ozone and hydrogen peroxide → Enhances OH radical generation efficiency.
Pollutant Removal Mechanism in AOP Treatment
- Removal of pollutants by oxidation from generated OH radicals.
- Photocatalytic decomposition through UV light.
Application Areas
- Apartment complex drinking water tanks.
- Washing of drinking water, electrical appliances, and containers.
- Decomposition of organic matter in sewage and wastewater.
- Purification and concentration of liquid manure.
- Total treatment of sewage, drinking water, and groundwater.
- Reuse of wastewater.
- Surface treatment in industrial areas (cleaning and disposal of organic matter).
- Sterilization and treatment of waste in power plants, special wastewater, and hazardous wastewater.
Target Substances for AOP Treatment
- Sterilization of microorganisms such as bacteria.
- Organic chemicals, including by-products from pharmaceuticals and manufacturing.
- Pesticides.
- Odorous gases and volatile substances.
- Taste and odor-causing substances.
- Toxic chemicals.
- Carcinogens and mutagens.
- Endocrine-disrupting chemicals.
- Nitrogenous compounds.
- Toluene, Benzene, N-Butanol, Vinyl Chloride.
AOP (Cooling Tower)
Principle of the AOP System
- Generation of OH radicals
- Using UV light, ozone is decomposed in water to generate hydroxyl radicals → Intermediate product: Generation of OH radicals.
- Produces active oxygen species such as ozone, hydrogen peroxide, and hydroxyl radicals, which have much higher oxidation power than ozone (3 to 10 times higher than ozone, more than 1,000 times higher than chlorine).
- UV decomposition of ozone and hydrogen peroxide → Enhances OH radical generation efficiency.
Pollutant Removal Mechanism in AOP Treatment
- Removal of pollutants by oxidation from generated OH radicals.
- Photocatalytic decomposition through UV light.
Application Areas
- Apartment complex drinking water tanks.
- Washing of drinking water, electrical appliances, and containers.
- Decomposition of organic matter in sewage and wastewater.
- Purification and concentration of liquid manure.
- Total treatment of sewage, drinking water, and groundwater.
- Reuse of wastewater.
- Surface treatment in industrial areas (cleaning and disposal of organic matter).
- Sterilization and treatment of waste in power plants, special wastewater, and hazardous wastewater.
Target Substances for AOP Treatment
- Sterilization of microorganisms such as bacteria.
- Organic chemicals, including by-products from pharmaceuticals and manufacturing.
- Pesticides.
- Odorous gases and volatile substances.
- Taste and odor-causing substances.
- Toxic chemicals.
- Carcinogens and mutagens.
- Endocrine-disrupting chemicals.
- Nitrogenous compounds.
- Toluene, Benzene, N-Butanol, Vinyl Chloride.
Ozone Mixer
Principle of the AOP System
- Generation of OH radicals
- Using UV light, ozone is decomposed in water to generate hydroxyl radicals → Intermediate product: Generation of OH radicals.
- Produces active oxygen species such as ozone, hydrogen peroxide, and hydroxyl radicals, which have much higher oxidation power than ozone (3 to 10 times higher than ozone, more than 1,000 times higher than chlorine).
- UV decomposition of ozone and hydrogen peroxide → Enhances OH radical generation efficiency.
Pollutant Removal Mechanism in AOP Treatment
- Removal of pollutants by oxidation from generated OH radicals.
- Photocatalytic decomposition through UV light.
Application Areas
- Apartment complex drinking water tanks.
- Washing of drinking water, electrical appliances, and containers.
- Decomposition of organic matter in sewage and wastewater.
- Purification and concentration of liquid manure.
- Total treatment of sewage, drinking water, and groundwater.
- Reuse of wastewater.
- Surface treatment in industrial areas (cleaning and disposal of organic matter).
- Sterilization and treatment of waste in power plants, special wastewater, and hazardous wastewater.
Target Substances for AOP Treatment
- Sterilization of microorganisms such as bacteria.
- Organic chemicals, including by-products from pharmaceuticals and manufacturing.
- Pesticides.
- Odorous gases and volatile substances.
- Taste and odor-causing substances.
- Toxic chemicals.
- Carcinogens and mutagens.
- Endocrine-disrupting chemicals.
- Nitrogenous compounds.
- Toluene, Benzene, N-Butanol, Vinyl Chloride.
AOP (Ozone Generator)
Principle of the AOP System
- Generation of OH radicals
- Using UV light, ozone is decomposed in water to generate hydroxyl radicals → Intermediate product: Generation of OH radicals.
- Produces active oxygen species such as ozone, hydrogen peroxide, and hydroxyl radicals, which have much higher oxidation power than ozone (3 to 10 times higher than ozone, more than 1,000 times higher than chlorine).
- UV decomposition of ozone and hydrogen peroxide → Enhances OH radical generation efficiency.
Pollutant Removal Mechanism in AOP Treatment
- Removal of pollutants by oxidation from generated OH radicals.
- Photocatalytic decomposition through UV light.
Application Areas
- Apartment complex drinking water tanks.
- Washing of drinking water, electrical appliances, and containers.
- Decomposition of organic matter in sewage and wastewater.
- Purification and concentration of liquid manure.
- Total treatment of sewage, drinking water, and groundwater.
- Reuse of wastewater.
- Surface treatment in industrial areas (cleaning and disposal of organic matter).
- Sterilization and treatment of waste in power plants, special wastewater, and hazardous wastewater.
Target Substances for AOP Treatment
- Sterilization of microorganisms such as bacteria.
- Organic chemicals, including by-products from pharmaceuticals and manufacturing.
- Pesticides.
- Odorous gases and volatile substances.
- Taste and odor-causing substances.
- Toxic chemicals.
- Carcinogens and mutagens.
- Endocrine-disrupting chemicals.
- Nitrogenous compounds.
- Toluene, Benzene, N-Butanol, Vinyl Chloride.
Ozone Destructor
Principle of the AOP System
- Generation of OH radicals
- Using UV light, ozone is decomposed in water to generate hydroxyl radicals → Intermediate product: Generation of OH radicals.
- Produces active oxygen species such as ozone, hydrogen peroxide, and hydroxyl radicals, which have much higher oxidation power than ozone (3 to 10 times higher than ozone, more than 1,000 times higher than chlorine).
- UV decomposition of ozone and hydrogen peroxide → Enhances OH radical generation efficiency.
Pollutant Removal Mechanism in AOP Treatment
- Removal of pollutants by oxidation from generated OH radicals.
- Photocatalytic decomposition through UV light.
Application Areas
- Apartment complex drinking water tanks.
- Washing of drinking water, electrical appliances, and containers.
- Decomposition of organic matter in sewage and wastewater.
- Purification and concentration of liquid manure.
- Total treatment of sewage, drinking water, and groundwater.
- Reuse of wastewater.
- Surface treatment in industrial areas (cleaning and disposal of organic matter).
- Sterilization and treatment of waste in power plants, special wastewater, and hazardous wastewater.
Target Substances for AOP Treatment
- Sterilization of microorganisms such as bacteria.
- Organic chemicals, including by-products from pharmaceuticals and manufacturing.
- Pesticides.
- Odorous gases and volatile substances.
- Taste and odor-causing substances.
- Toxic chemicals.
- Carcinogens and mutagens.
- Endocrine-disrupting chemicals.
- Nitrogenous compounds.
- Toluene, Benzene, N-Butanol, Vinyl Chloride.
Contact Us
Feel free to contact us to :
5830 E 2nd St, Ste 7000 #17999, CASPER, WYOMING, 82609 USA