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For capacities up to 10 MLD

prime

prime

prime

Sewage treatment systems for municipalities, villages and townships

Sewage treatment systems for municipalities, villages and townships

Sewage treatment systems for municipalities, villages and townships

The sequence batch reactor (SBR) process is enhanced with EcoSBRprime systems where aerobic granular sludge (AGS) replaces activated sludge in treatment. Sewage treatment plants with EcoSBRprime systems are capable of removing nutrients such as ammonia and phosphorous biologically without additional treatment facilities or chemicals. Additionally, AGS settle rapidly reducing the settling time to a few minutes, thus enhancing the SBR’s capacity to treat higher wastewater volumes.

The aerobic granular sludge biological processes has a much lower demand for aeration in compared to other aerobic process (ASP, MBBR, MBR, extended aeration, etc.), thus, resulting in very low operation costs. EcoSBRprime plants are fully automated with control mechanisms that offer flexibility to change processes easily based on incoming wastewater quantity and quality. Most EcoSBRprime plants are designed to comprise multiple reactor modules that can be intelligently managed in parallel, maintaining multi-level communication across several control units.

Operation

Filling + Clear Water Removal

Treatment commences when wastewater from the collection tank is pumped into the bottom SBR reactor in a flow-controlled manner. The anaerobic reaction starts the treatment of incoming wastewater. Simultaneously, clear treated water water is displaced from the top of the SBR/ aeration tank.

Aeration

Within the aerobic granular sludge different zones, including anaerobic, anoxic, and oxic regions, are maintained while aerating the SBR reactor. Within these zones, microbes further break down and consume pollutants, contributing to effective wastewater treatment. Aeration is facilitated by measured and time-controlled fine bubble diffusion, optimizing the treatment process.

Sedimentation

Once the aeration process is completed, the air supply is discontinued, and the fast settling sludge settles at the bottom of the reactor, leaving a clear water zone at the top, ready to be taken out of the aeration tank.

Operation

Filling + Clear Water Removal

Treatment commences when wastewater from the collection tank is pumped into the bottom SBR reactor in a flow-controlled manner. The anaerobic reaction starts the treatment of incoming wastewater. Simultaneously, clear treated water water is displaced from the top of the SBR/ aeration tank.

Aeration

Within the aerobic granular sludge different zones, including anaerobic, anoxic, and oxic regions, are maintained while aerating the SBR reactor. Within these zones, microbes further break down and consume pollutants, contributing to effective wastewater treatment. Aeration is facilitated by measured and time-controlled fine bubble diffusion, optimizing the treatment process.

Sedimentation

Once the aeration process is completed, the air supply is discontinued, and the fast settling sludge settles at the bottom of the reactor, leaving a clear water zone at the top, ready to be taken out of the aeration tank.

Treatment

Treatment

Advantages

Advantages

Other Treatments

Operation

Filling + Clear Water Removal

Treatment commences when wastewater from the collection tank is pumped into the bottom SBR reactor in a flow-controlled manner. The anaerobic reaction starts the treatment of incoming wastewater. Simultaneously, clear treated water water is displaced from the top of the SBR/ aeration tank.

Aeration

Within the aerobic granular sludge different zones, including anaerobic, anoxic, and oxic regions, are maintained while aerating the SBR reactor. Within these zones, microbes further break down and consume pollutants, contributing to effective wastewater treatment. Aeration is facilitated by measured and time-controlled fine bubble diffusion, optimizing the treatment process.

Sedimentation

Once the aeration process is completed, the air supply is discontinued, and the fast settling sludge settles at the bottom of the reactor, leaving a clear water zone at the top, ready to be taken out of the aeration tank.

Operation

Filling + Clear Water Removal

Treatment commences when wastewater from the collection tank is pumped into the bottom SBR reactor in a flow-controlled manner. The anaerobic reaction starts the treatment of incoming wastewater. Simultaneously, clear treated water water is displaced from the top of the SBR/ aeration tank.

Aeration

Within the aerobic granular sludge different zones, including anaerobic, anoxic, and oxic regions, are maintained while aerating the SBR reactor. Within these zones, microbes further break down and consume pollutants, contributing to effective wastewater treatment. Aeration is facilitated by measured and time-controlled fine bubble diffusion, optimizing the treatment process.

Sedimentation

Once the aeration process is completed, the air supply is discontinued, and the fast settling sludge settles at the bottom of the reactor, leaving a clear water zone at the top, ready to be taken out of the aeration tank.

Treatment

Treatment

Advantages

Advantages