Technology for Advanced Wastewater Treatment
Optimized Water Recovery with Submerged MBR Systems
At WaterNext, we are specialized in high-performance MBR (Membrane Bioreactor) technology, utilizing hollow fiber membranes (submerged MBR) to maximize industrial water recovery efficiency. This cutting-edge filtration technology is specifically designed to enhance wastewater treatment performance, ensuring better effluent quality compared to traditional clarifiers and filtration systems.
As the name suggests, the Membrane Bioreactor (MBR) system integrates biological treatment with membrane filtration, allowing for the complete removal of suspended solids, while significantly reducing BOD,
COD, and color levels. Unlike conventional wastewater treatment methods that require clarifiers, microfiltration, and external ultrafiltration, the MBR process eliminates these additional filtration steps, resulting in:
🍀A reduced plant footprint
🍀Lower mechanical equipment requirements
🍀Minimal civil works and infrastructure costs
KEY ADVANTAGES OF MBR TECHNOLOGY
🍀Suspended solids-free discharge: ensures high-quality treated water with zero suspended solids, making it ideal for reuse or downstream processes.
🍀Enhanced plant performance & easy troubleshooting : the integrated biological reactor and membrane system provide stable, efficient operation, simplifying maintenance and process control.
🍀No solids carry over: eliminates the risk of sludge bypass, ensuring consistent and high-efficiency wastewater treatment.
🍀User-friendly & easy operation: automated system control minimizes manual intervention, making it ideal for industrial applications.
🍀Optimized reverse osmosis (RO) performance: when used as a pre-treatment for RO systems, MBR technology prevents membrane fouling, extending the lifespan of reverse osmosis membranes.
🍀Long-lasting membrane life: the advanced hollow fiber membranes offer extended durability, reducing replacement frequency and operational costs.
By implementing WaterNext’s MBR solutions, industries can achieve superior wastewater treatment efficiency, higher water reuse rates, and lower operational costs—all while supporting sustainability and environmental compliance.