The MBBR MEDIA/IFAS technique is a revolutionary biological cure procedure using countless numbers of special providers developed to create a large total surface area for biofilm development €" enhancing your waste water treatment process without growing your footprint. The program can be operated as either a MBBR MEDIA or an IFAS structure.
In the MBBR MEDIA structure provides a treatment process based on a bio-film which gives organic carbon elimination, in addition to nitrification and de-nitrification where necessary, without circulation of activated sludge. The method is simple, powerful, and requires minimum operative intervention. Wastewater is introduced into a single or several-stage technique (relying on whether Nitrogen removing is necessary), each of which consists of the appropriate amount of biomass carriers.
The MBBR MEDIA structure is extremely well suited for a variety of applications: from pre-treatment of industrialized wastewater, to full remedy of municipal wastewater to the much stringent effluent needs, as a separate option or as a polishing of present solutions such as lagoons.
In the IFAS configuration utilizes the intricate relationships between a bio-film on the biomass carriers and stopped biomass in the stimulated debris. This co-existence creates a specific and really intensified nitrifying bio-film on the biomass carriers, serving concurrently with the natural carbon oxidization by the activated sludge. This procedure principle is to introduce biomass providers into the triggered debris, thereby allowing the activated sludge to remove most of the BOD, whilst allowing the biofilm to develop a microbiological population that oxidizes ammonium compounds.
The IFAS configuration is especially nicely suited for retrofitting existing plants in order to add nitrification capacity, in addition to increasing carbonaceous BOD removing, without any extra tank quantity. This structure can also be used in freshly created plants.
Functions and advantages
Cost Effective - Lower capital and process expenses than typical alternatives.
Little Footprint - Prevents infrastructure improvement required for extra tankage.
Just-in-Time development - The MBBR MEDIA/IFAS program allows gradual, multi-step, plant growth, by steady addition of natural carriers.
Stable Process - Dangerous distracts and hydraulic 'wash out' events by no means affect the whole microbial populace in the bio-film, thus process restoration is quick and smooth.
Deep Nitrification - The MBBR MEDIA/IFAS method permits quantitative nitrification perhaps at a low debris age of the activated debris, by having a separate populace on the biomass carriers.
Low Temperature Nitrification - A biofilm rich with autotrophs allows steady nitrification even at low temperatures.
Improved Sludge Quality - Nitrification in the MBBR MEDIA/IFAS technique occurs at low suspended-sludge age, resulting in much better sludge settling qualities.
What this signifies to you
Improved oxygen exchange; reduced working price
Decreased servicing; removal of plugging; decreased cost
Enables for enlargement/upgrade without extra tankage; decreased cost
Nitrogen removal without increased hydraulic retention time
Fixed-film biomass is attached to carriers created to continue in the aeration basin even under hydraulic upset situations; because of biofilm layers on the media, dangerous distracts typically do not impact all lively biomass and recovery is much quicker than with suspended development methods.
In the MBBR MEDIA structure provides a treatment process based on a bio-film which gives organic carbon elimination, in addition to nitrification and de-nitrification where necessary, without circulation of activated sludge. The method is simple, powerful, and requires minimum operative intervention. Wastewater is introduced into a single or several-stage technique (relying on whether Nitrogen removing is necessary), each of which consists of the appropriate amount of biomass carriers.
The MBBR MEDIA structure is extremely well suited for a variety of applications: from pre-treatment of industrialized wastewater, to full remedy of municipal wastewater to the much stringent effluent needs, as a separate option or as a polishing of present solutions such as lagoons.
In the IFAS configuration utilizes the intricate relationships between a bio-film on the biomass carriers and stopped biomass in the stimulated debris. This co-existence creates a specific and really intensified nitrifying bio-film on the biomass carriers, serving concurrently with the natural carbon oxidization by the activated sludge. This procedure principle is to introduce biomass providers into the triggered debris, thereby allowing the activated sludge to remove most of the BOD, whilst allowing the biofilm to develop a microbiological population that oxidizes ammonium compounds.
The IFAS configuration is especially nicely suited for retrofitting existing plants in order to add nitrification capacity, in addition to increasing carbonaceous BOD removing, without any extra tank quantity. This structure can also be used in freshly created plants.
Functions and advantages
Cost Effective - Lower capital and process expenses than typical alternatives.
Little Footprint - Prevents infrastructure improvement required for extra tankage.
Just-in-Time development - The MBBR MEDIA/IFAS program allows gradual, multi-step, plant growth, by steady addition of natural carriers.
Stable Process - Dangerous distracts and hydraulic 'wash out' events by no means affect the whole microbial populace in the bio-film, thus process restoration is quick and smooth.
Deep Nitrification - The MBBR MEDIA/IFAS method permits quantitative nitrification perhaps at a low debris age of the activated debris, by having a separate populace on the biomass carriers.
Low Temperature Nitrification - A biofilm rich with autotrophs allows steady nitrification even at low temperatures.
Improved Sludge Quality - Nitrification in the MBBR MEDIA/IFAS technique occurs at low suspended-sludge age, resulting in much better sludge settling qualities.
What this signifies to you
Improved oxygen exchange; reduced working price
Decreased servicing; removal of plugging; decreased cost
Enables for enlargement/upgrade without extra tankage; decreased cost
Nitrogen removal without increased hydraulic retention time
Fixed-film biomass is attached to carriers created to continue in the aeration basin even under hydraulic upset situations; because of biofilm layers on the media, dangerous distracts typically do not impact all lively biomass and recovery is much quicker than with suspended development methods.
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