neo
neo
neo
For capacities up to 50 KLD
Sewage treatment plants for individual houses and small offices
Sewage treatment plants for individual houses and small offices
Sewage treatment plants for individual houses and small offices
EcoSBRneo treatment systems offer a very effective solution for treating sewage. The treated water can serve a variety of purposes, including reuse, safe discharge into the environment, and even groundwater recharge, promoting environmental sustainability. Furthermore, the system uses the capability to adapt its operations in response to fluctuations in the incoming wastewater load, resulting in substantial cost savings in terms of operation and maintenance.
EcoSBRneo sewage treatment plants are designed for a long operational lifespan without the need for replacement parts for many years. Each EcoSBRneo treatment system incorporates process automation, control systems, and alarms that ensure timely notifications regarding service and maintenance requirements.
For capacities up to 50 KLD
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
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
Operation
Treatment
Advantages
Clear Water Removal + Filling
Treated water from the SBR reactor is removed using airlift units. At the same time, accumulated sewage in the collection flows into the reactor through the opening provided between the collection tank and the SBR reactor.
Aeration
Fine bubble intermittent aeration supplies air creating the right conditions for activated sludge to consume the pollutants and thus treating the wastewater.
Sedimentation
In this treatment phase, aeration is stopped, and the heavy sludge particles settle to the bottom of the SBR reactor. This results in a clear water zone appearing on the top of the water layer. This clear treated water is ready to be removed.
Other Treatments
