Fushun UV spraying waste gas treatment equipment manufacturers free technical solutions
Odor treatment process: high efficiency washing + microwave photocatalytic oxidation activation + activated adsorption separation + aerosol deodorant
First, efficient washing
1, remove some water-soluble gas
2, cooling and dust
3, add the appropriate humidity, high-energy ultraviolet light can promote rapid decomposition of water molecules and the coupled Photocatalyst air in the reaction of a strong oxidation of ozone and active free radical - OH, significantly improve the treatment effect of malodorous gases.
Two, microwave photocatalytic oxidation activation
1, equipment technology driven by microwave electrodeless UV lamp, and microwave radiation and preparation of molecular UV can further enhance the photocatalytic activity of materials and the surface hydroxyl activation to produce hydroxyl radicals, promote the decomposition of odor of molecular groups, improve the absorption efficiency of light energy.
2, electromagnetic field, excimer VUV, photocatalysis technology integrated, can produce instantaneous ozone oxidation, active oxygen radicals and strong oxidizing free radicals completely degradation of volatile organic pollutants, decompose organic pollutants into water without pollution (H2O) and two carbon dioxide (CO2) and other harmful gas purification. High efficiency.
3, microwave and UV excimer can promote surface hydroxyl odor molecules, a substantial increase in its activity, so as to improve the probability of deodorant active absorption, to achieve higher efficiency of deodorization.
Three, the adsorption activity of deodorant
1, through the high pressure gaseous equipment will deodorant device, formed a great surface area of gas phase odorant molecules, has strong surface energy and activity, and the stench of molecular aggregation, rapid replacement, replacement, adsorption, chemical reaction, can effectively remove odor molecules.
2, adsorption of excessive ozone produced by photocatalysis.
Four, centrifugal separation
1, the remaining a handful of harmful substances dissolved in water, through the centrifugal separation layer will remove the water vapor, further improve the efficiency of deodorization.
2, water mist removal rate of up to 95%, the discharge of the gas in the basic water mist, visual effect is better.
Product introduction
The UV photolysis air purifier is a device that uses the special high energy and high ozone UV ultraviolet light beam to irradiate the malodorous gas and to split the malodorous gas.
Technical characteristics:
Microwave resonance polymerization efficiency of more than 90% devices: microwave resonator by optical Institute of professional design, no interference and efficient use of microwave resonant UV, high energy utilization rate.
- mist control: control environment humidity appropriate, ensure high energy ultraviolet beam wavelength specific rapid decomposition of water molecules and the coupled Photocatalyst air in the reaction of a strong oxidation of ozone and active free radical - OH, a substantial increase in odor treatment effect.
- UV intensity control: through the detection of electronic nose system with intelligent control, according to the gas concentration change, automatic control equipment of ultraviolet lamp energy intensity and illumination, to achieve intelligent control power equipment, energy saving.
- reasonable wavelength selection: Based on the wavelength of ultraviolet light 173nm, 185nm and 254nm, according to the concentration of exhaust gas, components, reasonable selection of UV light wavelength and surface energy intensity, for better and better economic benefit.
• ozone control: UV lamp according to the concentration of waste gas to achieve rationalization, but also to minimize ozone generation, a small amount of ozone absorbed by the water mist, odorless oxidation.
• remote intelligent control: through the "environmental wisdom cloud" system, set up standardized processes and open interfaces, all equipment operation, exhaust gas concentration data visualization analysis, management