DRINKING WATER TREATMENT RESOURCES

• 7 Challenges Municipal Water Treatment Professionals Are Facing And How To Solve Them

  Solutions that offer instant, chemical-free disinfection, manage costs, handle high organic loads, and control emerging contaminants are defining the path forward for water facilities.

• Office Of Naval Research Contract Leads To New Chlorine Sensor Technology

  Developed from U.S. Office of Naval Research requirements, this multiparameter chlorine sensor offers extended maintenance-free operation, flow-independence, and automatic compensation for reliable, in-pipe monitoring.

• Eliminating Chlorine Sensor Pain Points With New Technology

  Next-generation chlorine sensors eliminate the need for reagents and membranes, while offering flow-independent, multi-parameter, self-cleaning operation. This reduces maintenance and enhances monitoring accuracy.

• Sensors Are The Missing Link For Legionella Control In Buildings And Hospitals

  Traditional sensors are impractical for continuous hot water quality monitoring, creating a Legionella control gap. New sensor technology allows cost-effective, multi-parameter, no-waste, in-pipe monitoring for enhanced building safety.

• Water Quality Data Now Available Through SENSUS AMI Systems From Anywhere

  Real-time, in-pipe sensors measure seven critical water quality parameters, including multiple chlorine species, pH, and temperature, for accurate system management and EPA compliance.

• How Water Utilities Can Unlock Federal Funds Through BABAA-Compliant Flow Monitoring Instruments

  BABAA-compliant flow meters help utilities secure federal funding, avoid waiver delays, and simplify documentation by ensuring domestic manufacturing and fully traceable components.

• HAAs In The EU: Monitoring For Haloacetic Acids Under The Drinking Water Directive

  In this Q&A, Dr. Elke Süss of Metrohm addresses the urgent need for haloacetic acid testing in response to “one of the most significant updates to EU drinking water monitoring in recent years.”
• 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.