Introduction to Biological Activated Carbon:
Gongyi Baolai water treatment biological activated carbon immobilizes microorganisms on activated carbon, increases its adsorption capacity, prolongs its service life, and enhances its ability to degrade organic matter in water. This is the technology of biological activated carbon.
Mechanism of action of biologically activated carbon:
1. Biological activated carbon for turbidity removal
① The influence of filter depth results in different turbidity removal rates at each sampling port.
② The impact of influent turbidity is that when the influent turbidity is low, the effluent turbidity remains almost unchanged, and at 3NTU, the effluent turbidity fluctuates greatly, sometimes>1NTU.
2. The removal of disinfection by-products by biological activated carbon
① The removal efficiency of organic matter and ammonia nitrogen by biological activated carbon sand filter column is significant: the average removal rates of CODCr and UV254 are 40.4% and 48.9%, respectively; When the influent ammonia nitrogen concentration is below 2 mg/L, the average removal rate is 82.5%; The average turbidity removal rate is about 82.4%, and the average effluent turbidity is 0.51NTU.
② Biological activated carbon sand filtration technology is expected to become an efficient and low-cost new water purification process in improving water quality and ensuring the safety of drinking water.
The main uses of biochar are:

It is mainly used for the treatment of micro polluted water sources, industrial wastewater, and domestic water. It is used for the full removal of organic matter in micro polluted raw water, as well as the deep treatment of toxic or difficult to degrade organic wastewater such as printing and dyeing wastewater and petrochemical wastewater.

Biochar packaging: