DLC High-Efficiency Anaerobic Biological Technology
Developed by our technical team based on over 20 years of practical experience with anaerobic bioreactors, this new generation of bioreactor features an internal-external dual circulation system, a dual-layer three-phase separator, and a unique internal water distribution system. It is widely used in wastewater treatment for the food and brewing industries, and can also be applied in the chemical industry, solar industry and pharmaceutical sectors as a biochemical preprocessing unit for wastewater.
High-concentration wastewater is pumped from the bottom through a water distribution system, ensuring a rapid and homogeneous mix with the granular sludge in the reactor. Depending on the different organic forms in the incoming water, each zone can be designed as a separate functional unit. Utilizing the unique distribution of fungal species and runner design in each zone ensures a well-established internal circulation system, enabling rapid and thorough removal of pollutants. This enhances the efficiency of the system. Additionally, inter-zone circulation can be achieved via an external circulation system to ensure water quality balance within the system and improve reaction efficiency.
High-concentration wastewater is pumped from the bottom through a water distribution system, ensuring a rapid and homogeneous mix with the granular sludge in the reactor. Depending on the different organic forms in the incoming water, each zone can be designed as a separate functional unit. Utilizing the unique distribution of fungal species and runner design in each zone ensures a well-established internal circulation system, enabling rapid and thorough removal of pollutants. This enhances the efficiency of the system. Additionally, inter-zone circulation can be achieved via an external circulation system to ensure water quality balance within the system and improve reaction efficiency.
Technical Features
? High efficiency of suspended solids retention and mass transfer
? Superior organic matter degradation rate & high volumetric loading capacity
? Shock-resistant & stable operation
? Low investment, small land area and low operating costs
? High biogas yield and high resource value
? Superior organic matter degradation rate & high volumetric loading capacity
? Shock-resistant & stable operation
? Low investment, small land area and low operating costs
? High biogas yield and high resource value
Low-temperature catalytic wet air oxidation
This catalyst overcomes the interphase barrier between the organic and aqueous phases, leveraging its affinity for organic compounds to transfer the oxidant from the aqueous phase to the organic phase, thereby enhancing the reaction efficiency.
This technology is designed to detoxify and degrade high-concentration, hard-to-treat, toxic, and harmful organic wastewater, ensuring the effective support for subsequent biological treatment processes. It is also capable of removing reductive pollutants such as ammonia nitrogen and sulfides, as well as preventing coking and reducing residue buildup in evaporative crystallizers.
This technology is designed to detoxify and degrade high-concentration, hard-to-treat, toxic, and harmful organic wastewater, ensuring the effective support for subsequent biological treatment processes. It is also capable of removing reductive pollutants such as ammonia nitrogen and sulfides, as well as preventing coking and reducing residue buildup in evaporative crystallizers.
Technical Features
? Efficient organic compound degradation at ambient temperature and pressure, enhancing wastewater biodegradability
? Zero-harm process with no secondary contamination
? Superior reactivity with rapid oxidation rates, ensuring complete conversion of NH3-N and other compounds
? User-friendly, reliable equipment with minimal investment and operational costs
? Zero-harm process with no secondary contamination
? Superior reactivity with rapid oxidation rates, ensuring complete conversion of NH3-N and other compounds
? User-friendly, reliable equipment with minimal investment and operational costs
