| Primary media | Industrial effluents Sewage |
| System type | Packaged systems |
| Technologies | Biological aerated filters |
| Installation | Above ground |
| Availability | Pilot plant |
Envirobac offers a full-scale, trailer-mounted EnviroBAFF system for hire.
Although designed primarily for industrial liquid effluent treatment, the EnviroBAFF system can also be used for the treatment of sewage and is very efficient as an add-on plant for the conversion of ammonia to nitrate (nitrification).
The EnviroBAFF pilot plant system includes electrical control panel, air blower, pumps, air and water flowmeters, dosing pumps, DAF plant and lamella settler. Experienced engineers operate the system on a clients site to ascertain the optimum COD removal rate and the most efficient configuration, while confirming the extent of a clients effluent discharge.
The EnviroBAFF design utilises the submerged fixed film process to maximise the growth, and therefore, the waste consuming abilities of film-forming bacteria. This is accomplished by providing the optimum conditions for growth: a large surface area in continuous contact with both oxygen and effluent. Oxygen is supplied via a patented membrane diffuser that covers the underside of the matrix. The diffuser and matrix optimise fluid mixing and oxygen transfer.
Although designed primarily for industrial liquid effluent treatment, the EnviroBAFF system can also be used for the treatment of sewage and is very efficient as an add-on plant for the conversion of ammonia to nitrate (nitrification).
The EnviroBAFF pilot plant system includes electrical control panel, air blower, pumps, air and water flowmeters, dosing pumps, DAF plant and lamella settler. Experienced engineers operate the system on a clients site to ascertain the optimum COD removal rate and the most efficient configuration, while confirming the extent of a clients effluent discharge.
The EnviroBAFF design utilises the submerged fixed film process to maximise the growth, and therefore, the waste consuming abilities of film-forming bacteria. This is accomplished by providing the optimum conditions for growth: a large surface area in continuous contact with both oxygen and effluent. Oxygen is supplied via a patented membrane diffuser that covers the underside of the matrix. The diffuser and matrix optimise fluid mixing and oxygen transfer.
