Introduction to Some Environmental Protection Methods for Treating Benzene Waste Gas

Benzene waste gas not only pollutes the environment, but also is detrimental to human health. How can we handle these waste gases in an environmentally friendly and efficient manner? The following biological treatment methods may be very effective in solving such problems.

The biological drip filter has a very strong absorption effect on "triphenyl" organic waste gas, which is an emerging technology. The range of removal ability is particularly wide in the experimental concentration range and when utilizing microbial growth and reproduction processes to absorb organic gases. When using a biological drip filter to treat gaseous benzene compounds, the longer the operating time, the more adapted the microorganisms are to the exhaust gas, and the better and more stable the treatment effect. This method is applicable to a wide range of concentrations, with low investment, simple operation and maintenance, and no secondary pollution.

Biological treatment methods degrade harmful components in benzene waste gas into carbon dioxide, water, and cellular components, thereby achieving the goal of treating waste gas. The key to this method is to select and cultivate efficient and applicable microbial strains. The core of the biological treatment process for organic waste gas containing "triphenyl" is biofilm. The basic principle is to use microbial breeding technology to cultivate, domesticate, and enrich multiple types of special microbial strains, and then inoculate these microbial strains on the porous packing surface to form a biofilm layer. When the waste gas containing multiple volatile organic compounds flows through the packing tower, the pollutants in the waste gas are transferred to the biofilm due to diffusion; Under suitable environmental conditions, this biofilm undergoes growth and reproduction through biochemical reactions involving microbial enzymes. The organic components in the waste gas are used as nutrients and degraded into carbon dioxide, water, and cellular components, thereby achieving the goal of purifying benzene waste gas.