VOCs organic waste gas catalytic combustion system and CO catalytic combustion equipment processing technology is very practical, with high requirements for waste heat recovery and reuse; there is no other full process that can be used as a heat exchanger purchase process; it is suitable for the same production line because different products often have varying waste gas compositions or very rough waste gas concentration values. It cleans and processes high-concentration organic chemical waste gases formed in the production industry, including crude oil, chemical plants, vulcanized rubber, paint, spraying, furniture, printing iron barrels, packaging and printing, etc. The types of organic chemicals that can be processed include benzene, macrolides, esters, phenolic compounds, hydrocarbons, aldehydes, ethers, and more.
VOCs catalytic combustion system for organic waste gas, and CO catalytic combustion equipment processing technology is very practical, with high requirements for waste heat recovery and reuse; there is no other full process that can be used as a heat exchanger purchase process; it is suitable for the same production line, because for different products, the composition of waste gas often changes or the concentration value of waste gas is very rough. It cleans and processes high-concentration organic chemical waste gas formed in the production industry, including crude oil, chemical plants, vulcanized rubber, paint, spraying, furniture, printing iron barrels, packaging and printing, etc. The types of organic chemicals that can be processed include benzene, macrolides, esters, phenolic compounds, hydrocarbons, aldehydes, ethers and nitrogen compounds. In addition, it is also suitable for odor removal in wastewater treatment plants. It processes organic chemical waste gas and odor with a concentration between 500-700 / m3.
Catalytic oxidation is a typical gas-solid catalytic reaction. Its essence is the role of ozone in deep oxidation. In the whole process of catalytic oxidation, the role of the catalyst is to reduce the activation energy. Other catalysts can make organic chemical waste gas undergo flameless oxidation under low ignition temperature standards, and oxidize and dissolve into CO2 and H2O, releasing a large amount of energy, thus removing harmful substances from the waste gas. The whole process is reflected as follows: in the whole process of expanding and oxidizing waste gas, the waste gas economic management channel is sent to the heat exchanger through a centrifugal fan, the waste gas is heated to the ignition temperature required for catalytic oxidation, and then oxidized according to the catalyst bed. Due to the presence of the catalyst, the ignition temperature of catalytic oxidation is about 250-300℃, which is much lower than the oxidation temperature of 650-800℃, so the energy-saving method is much lower than the immediate oxidation method.
The above information is provided by the catalytic combustion manufacturer
