Ion deodorizing equipment uses the characteristics of chemical activity inside the ion to produce high -energy electronics and ions during discharge. Oxygen molecules in the air are separated. Oxygen molecules can generate free ions after absorbing energy. Exhaust gas pollutants react with free oxygen groups, and eventually transformed into substances such as CO2 and H2O, thereby achieving the purpose of purifying exhaust gas.
Such equipment has a wide range of applications, high purification efficiency, small characteristics of the equipment, and is suitable for organic gases that are difficult to deal with other methods. The space is susceptible to explosion, and there are hidden safety hazards, so it is limited.

  1. Bio -deodorizing equipment
    Bio -degraded equipment is the purpose of transforming the smelly substances through the physiological metabolism of microorganisms to achieve deodorization. At present, biological purification methods are mostly adopted. The biological purification method is to use the collection of stinky stinks first, and then use microbial cells that are full of microorganisms with microbial cells that are full of microorganisms, and Diverse characteristics of adsorption and metabolic types have been adsorbed after adsorption of odor substances into CO2 and other inorganic objects.
    The disadvantage of biomedic deodorization equipment is the large area. Its advantage is that it is more economical, with high deodorization efficiency, and can reach more than 90%. Bio -filler comes from natural rich ingredients with porous water -ingredients, which is simple and convenient to operate without liquid circulation system.
  2. UV light unlock the stinky device
    UV light unlocking the stinky device uses high -energy UV ultraviolet beam to decompose oxygen molecules in the air to produce free oxygen (that is, active oxygen). Because free oxygen is carried on positive and negative electron imbalance, it is necessary to combine with oxygen molecules to produce ozone. Ozone is strong. The oxidation properties, through ozone, coordinate the effect of solving the oxidation of organic exhaust gas and evil odor gases, and transform the degradation of vulnerable gases into low molecular compounds, CO2 and H2O.

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