Masses of bacteria associated with fungal filament to form a mesh like structure of called a) flocs b) methanogen c) plasminogen d) none
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This is such an interesting question.
Masses of bacteria associated with the fungal filament to form a mesh-like structure called flocs. When air pumps into an aeration tank, it converts useful aerobic microbes into flocs. These microbes utilized organic matter in the effluent. It then reduces Biological Oxygen Demand(BOD) of the effluent. This is the secondary treatment to remove microbes.
Hope this will prove helpful.
Masses of bacteria associated with the fungal filament to form a mesh-like structure called flocs. When air pumps into an aeration tank, it converts useful aerobic microbes into flocs. These microbes utilized organic matter in the effluent. It then reduces Biological Oxygen Demand(BOD) of the effluent. This is the secondary treatment to remove microbes.
Hope this will prove helpful.
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Masses of bacteria associate with fungal filaments to form mesh-like structures called flocs.
Microalgae do not settle by gravity. So expensive harvesting techniques have to be applied. This bottleneck of microalgal technology can be overcome by bioflocculation of microalgae and bacteria. Microalgal Bacterial flocs settle by gravity up to density of 20g per litre. This is an important improvement in microalgal technology used for wastewater treatment.
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