The plasma industrial waste gas treatment technology has developed standardized waste gas treatment equipment, which uses the generated high-energy electrons, free radicals and other active particles to activate, ionize, and crack the various components in industrial waste gas, causing a series of complex chemical reactions such as decomposition and oxidation. After multi-stage purification, various odor and odor pollutants emitted from pollution sources are eliminated, and toxic and harmful gases are reduced to low toxicity and non toxicity, protecting the human living environment. Due to its efficient decomposition of pollutant molecules and low processing energy consumption, it has opened up a new approach for the treatment of industrial waste gas. The plasma reaction zone is rich in highly energetic substances such as high-energy electrons, ions, free radicals, and excited state molecules. The pollutants in the exhaust gas can react with these high-energy substances, causing them to decompose in a very short period of time and undergo various subsequent reactions to achieve the purpose of explaining pollutants. Compared with the low-temperature plasma technology generated by traditional corona discharge, the discharge density of plasma technology is 1500 times that of corona discharge. This is why traditional low-temperature plasma technology fails to treat 99% of industrial waste gas.

The photo oxygen plasma catalytic equipment uses a dual medium barrier discharge form to generate plasma, which has a density 1500 times higher than that of plasma generated by other technologies. It was initially used for the decomposition and treatment of Freon and Halon substances, and later extended to the treatment of industrial odors, odors, and toxic and harmful gases. This technology is energy-saving, environmentally friendly, and has a wide range of applications. Almost all odors and odors generated in chemical production processes can be treated, and it has a good decomposition effect on dioxins.

Photooxygen plasma catalytic equipment is the fourth state of matter after solid, liquid, and gas. When the applied voltage reaches the discharge voltage of the gas, the gas is broken down, producing a mixture including electrons, various ions, atoms, and free radicals. During the discharge process, although the electron temperature is high, the temperature of heavy particles is low, and the entire system exhibits a low-temperature state, hence it is called low-temperature plasma. Low temperature plasma degradation of pollutants utilizes the interaction between high-energy electrons, free radicals, and other active particles with pollutants in exhaust gas, causing pollutant molecules to decompose in a very short period of time and undergo various subsequent reactions to achieve the goal of pollutant degradation.