In the MBBR systems, thanks to the surface areas of the large number of biofilm carriers placed in the biological reactor, higher biological treatment efficiencies can be obtained in much smaller volumes. Thanks to biofilm carriers, the system operates steadily without being affected by deviations (pH, temperature, toxic shock, organic load) during operation.In populated cities, many domestic and industrial wastewater treatment plants cannot increase capacity due to the high cost of new productions (concrete ponds, mechanical equipment, etc.) or lack of sufficient space. However, wastewater flow rates and pollution loads increase day by day, waiting time of wastewater in ponds decreases, which causes the desired quality of water not to be treated. Lack of wastewater treatment, water is also plentiful as ever in the countries where Turkey is a very serious problem. This is where the Hybrid Bio Film Reactor System, shortly known as MBBR, comes into play. MBBR is very simple in use. They are used in wastewater treatment plants in ventilation ponds to a certain extent.

High efficiency organic carbon, nitrogen and phosphorus removal

Provides living space for microorganisms in biological processes

Helps decrease output values of BOD and COD values

40% less space required than conventional BNR systems

Saves up to 30% of air requirement.

Anaerobic ammonium oxidation is possible in the biofilm reactor (MBBR) with real-time oxygen control.

Capacity increase of wastewater treatment plant
Wastewater treatment plant improvement applications (higher quality demand in effluent)
Biological nutrient removal (BNR)
Industrial waste water treatment