Compared to the commonly used domestic methods for treating malodorous gases, plasma industrial waste gas treatment technology boasts the following characteristics:

Low-temperature plasma technology applied in the treatment of malodorous gases boasts numerous advantages, including effective treatment, low operational costs, absence of secondary pollution, stable operation, simple operation and management, and immediate use upon activation.

Medium barrier discharge generates high electron energy, with a low-temperature plasma density 1,500 times that of conventional plasma technology (corona discharge), which can almost react with all malodorous gas molecules.

② Our technology boasts rapid response speeds, with gases passing through the reaction zone at a rate of 3-15 meters per second, achieving excellent processing results. In contrast, other technologies struggle to reach a processing effect that is difficult to attain even with gas flow speeds through the reaction zone of just 0.01 meters per second.

③ The gas passage section is fully constructed with corrosion-resistant materials such as ceramics, quartz, and stainless steel, ensuring that electricity does not come into direct contact with exhaust gases, thereby fundamentally solving the corrosion issue associated with low-temperature plasma technology equipment. Other technologies involve direct contact between gas and electricity, which can lead to severe corrosion within 3 months or a year. In the case of agricultural pesticide factory exhaust gas treatment equipment, even if the passing gas is non-corrosive, the ozone produced internally can still cause corrosion to the electricity.

④ The main unit is a complete industrial waste gas treatment system, equipped with a tower in front, which effectively removes dust and moisture from the waste gas, and is easy to operate.

⑤ High degree of automation ensures rapid startup and shutdown, ready to use at any time. For the discontinuous nature of some chemical production, the equipment can be turned on during production and shut down during non-production intervals, significantly saving energy.

⑥ Lower operating costs, saving 5-8 times the operating expenses compared to the commonly used regenerative thermal oxidizer (RTO), with operating costs for every cubic meter of gas as low as 0.3 to 0.9 cents; high-concentration waste gases can be treated after air dilution.

Our chemical waste treatment equipment boasts a wide range of applications, largely unaffected by temperature or pollutant composition. It exhibits excellent decomposition of odorous gases, achieving a removal rate of 80-98% for malodorous odors. The odor concentration of the treated gas meets national standards.

⑧ The industrial waste gas treatment technology is not water washing technology; it directly pierces and轰击 pollutants with high-energy plasma, causing molecular chains to break, rather than transferring pollutants.

Key Feature: Taking total non-methane hydrocarbons as an example, with chromatographic detection, the removal rate of total non-methane hydrocarbons may only be 45%, but the removal rate of malodorous odors reaches 93%. This is because, after treatment, some molecules of total non-methane hydrocarbons become smaller ones, which still appear as total non-methane hydrocarbons in chromatographic detection; the high removal rate of malodorous odors indicates that more than 93% of the pollutants have been decomposed, as some of the decomposed substances also have an odor.