Composite packing is developed based on soft packing and semi-soft packing, combining the advantages of both. Its structure involves changing the plastic disc clips into double-loop large plastic rings, with aldehydeized fibers or polyester threads pressed onto the ring's hoop for even distribution of the fiber bundle; the inner ring is a snowflake-shaped plastic branch, which can both hang the film and effectively cut bubbles, enhancing the transfer rate and utilization of oxygen. This allows for a full exchange of the water-gas biofilm, leading to efficient treatment of organic matter in water. ●Application Range: Used in sewage and wastewater treatment projects, it is compatible with equipment such as contact oxidation towers, oxidation ponds, and oxidation troughs. It serves as a biological carrier for the biological contact oxidation process and anaerobic fermentation process for wastewater treatment.

● Product Overview:

Combi packing is developed based on soft packing and semi-soft packing, combining the advantages of both. Its structure involves replacing the plastic disc clips with double-loop large plastic rings, pressing aldehyde fiber or polyester threads onto the ring's loop for even fiber distribution; the inner circle is a snowflake-shaped plastic branch, which can both support the biofilm and effectively cut bubbles, enhancing the oxygen transfer rate and utilization. This ensures a thorough exchange of the water-gas biofilm, enabling efficient treatment of organic matter in water.

●Application Range:

Used in wastewater and sewage treatment projects, it is a biological carrier for treating wastewater by biological contact oxidation and anaerobic fermentation, which is配套 with equipment such as contact oxidation towers, oxidation ponds, and oxidation channels.

Product Features:

The composite filler is developed based on both soft and semi-soft fillers, combining the advantages of both. Its structure involves replacing the plastic disc buckle with a double-loop large plastic ring, and pressing aldehyde fiber or polyester filaments onto the ring, ensuring even distribution of the fiber bundle. The inner circle consists of snowflake-shaped plastic branches, which can both support the biofilm and effectively cut through bubbles, enhancing the transfer rate and utilization of oxygen. This allows for a thorough exchange of the water-gas biofilm, resulting in efficient treatment of organic matter in the water.

● Performance Features:

High thermal conductivity, low resistance, excellent water and air distribution, easy to form a film, and has bubble-cutting function.