PURON® MP: Direct Filtration up to 1,000 NTU
• Direct filtration for surface and secondary effluents up to 1,000 NTU
• Reinforced PVDF fibers and single potting construction for enhanced durability
• Maximizes flux and solids tolerance without costly pretreatment
• Simplifies operations with a compact design and reduced maintenance
• Cost-effective solution for challenging filtration applications

PURON® PSH MBR: Robust Performance, Superior Value
• Breakthrough membrane bioreactor (MBR) technology with patented single-header design
• Reinforced PVDF hollow fibers fixed only at the bottom to minimize clogging from hair and fibrous materials
• Activated sludge stays outside the fibers while permeate is drawn through the membrane’s interior
• Central aeration nozzle scours entire fiber length, improving efficiency and reducing power consumption
• Maximizes permeate production for superior performance and value

PURON® PULSION® MBR: Superior Throughput and Energy Efficiency

• Innovative PULSION® big-bubble aeration technology reduces aeration energy by up to 40%
• 25% reduction in system footprint for more compact installations
• Pulsing large bubbles through chambered fiber bundles creates a geyser-like action, reducing air and energy requirements
• Enhanced mixed liquor recirculation improves flux and boosts overall system performance
• Advances the proven reliability of the PURON® PSH MBR module

FEG PLUS® Modules: Lasting Durability, Clog-Free Performance.
• 1" diameter ultrafiltration membrane tubes designed for high-suspended solids without plugging
• Robust construction with a wide pH and temperature range for versatility
• Available in neutral or negatively charged PVDF chemistries for excellent chemical resistance
• High flux and easy cleaning in demanding applications like oily wastewater, colloidal silica, kaolin clay, ink and pigment processing, and metal finishing separations
• Wide channel tubular membranes ideal for high-strength industrial wastewater
• Advanced membrane chemistries for handling the toughest wastewater challenges