DRINKING WATER TREATMENT RESOURCES

• Breakthrough Recyclable Polyimide Membranes Transform Wastewater And High-Salinity Water Treatment

  Researchers have developed polyimide-based membranes for membrane distillation (MD) that overcome three persistent issues in membranes for water treatment and gas separations: the need for pore-forming chemicals that prevent recycling, performance degradation due to pore wetting and fouling, and the inherent trade-off between high water flux and selectivity.

• Mueller Has You Covered For Domestic Products

  Since 1857, Mueller Water Products have been helping municipalities increase operational efficiencies, improve customer service and prioritize capital spending. Throughout this time Mueller has played an essential role in the research, development and manufacturing of products and services used in water systems across North America.

• 9 Reasons Why Drinking Water Distribution System Monitoring Is Now Practical

  Drinking water professionals and engineers understand that maintaining safe and high-quality water throughout the distribution system is a critical responsibility. Chlorine, the backbone of disinfection, ensures safety, but its effectiveness can falter in the complex network of pipes, tanks, and dead ends.

• Why Desalination Needs Ozone — Especially In Texas

  Discover how pretreatment with ozone is key to securing desalination efficiency. It protects sensitive Reverse Osmosis membranes, cuts energy demand, and is essential for complex coastal water sources.

• Proprietary Reactivation Study Demonstrates PFAS Removal And Destruction Expertise

  Thermal reactivation of granular activated carbon is a proven and scalable method to achieve >99.9% destruction removal efficiency for PFAS. This process fully restores the carbon for reuse, providing a sustainable solution that breaks the cycle of "forever chemicals."

• Cut Costs, Cut Timelines: Rethink Your Next Water Project

  Small municipalities and industrial sites face constant pressure: deliver safe, stable water with limited resources and tight deadlines. Traditional on-site construction can stretch project schedules by months and introduce quality and cost risks. By shifting much of the fabrication off-site, these risks are dramatically reduced.

• 82 Million Gallons In. Zero PFAS Out.

  Ion exchange resin is a reliable, high-capacity solution for municipal PFAS treatment, demonstrating zero detectable PFAS after processing 82 million gallons of water. The technology offers a significantly smaller footprint and superior volumetric capacity compared to GAC. Read the full case study to review performance data and strategic impacts.

• The Future Of Water Quality Monitoring

  Real-time sensing is replacing traditional sampling to deliver essential water quality insights. Overcoming challenges like sensor biofouling and data management is the critical next step in ensuring future water resource protection.