MBBR media contribute to sludge reduction in wastewater treatment through their design and the way they function within the reactor:
1. Enhanced Degradation: The biofilm that develops on MBBR media has a community of microorganisms that can break down organic matter more effectively. This enhanced microbial activity can lead to a more complete digestion of organic materials, resulting in less sludge production compared to suspended growth systems.
2. Sludge Age: The MBBR system typically operates with a longer sludge age, meaning the biomass remains in the system for a more extended period. This allows for the endogenous decay of biomass, wherein microorganisms consume themselves when the readily biodegradable organic matter is scarce, further reducing the net sludge yield.
3. Sludge Wasting: In MBBR systems, excess biofilm sloughs off the carriers and is removed in a controlled manner. This natural shedding helps maintain an optimal thickness of the biofilm, and because the system doesn't require the frequent removal of excess sludge, the overall volume of sludge produced is less.
Regarding the role of MBBR media in biological phosphorus removal:
MBBR systems are not inherently designed for enhanced biological phosphorus removal (EBPR) because they typically do not provide the anaerobic conditions required for phosphorus-accumulating organisms (PAOs) to release phosphorus. However, MBBR media can be incorporated into systems designed with specific zones that provide the necessary conditions for EBPR:
1. Zone Integration: An MBBR system can be configured with pre-anoxic and anaerobic zones that would enable biological phosphorus removal. The MBBR media in these zones can support biofilms that are conducive to PAOs.
2. Biofilm Diversity: The biofilm on MBBR media can host a diverse microbial community, including PAOs. These organisms store phosphorus within their cells during certain stages of their metabolic process, contributing to phosphorus removal.
3. Sequential Treatment: In advanced designs, an MBBR system may be part of a sequential treatment setup, where it is followed by other processes specifically tailored for phosphorus removal. The MBBR stage can aid in reducing organic loads and providing a stable effluent that can be further treated for phosphorus removal in subsequent stages.
It's worth noting that for significant phosphorus removal to occur in an MBBR system, the media and the overall process design must be aligned with the biological requirements for phosphorus accumulation and release.