DRINKING WATER DISINFECTION RESOURCES
-
![1 4-dioxane]( "1,4-Dioxane And Advanced Oxidation: Designing Treatment Systems Around Radical Chemistry")
Learn why advanced oxidation processes are critical for treating 1,4-dioxane and how ozone-based systems can improve contaminant destruction and water quality.
-
![optimizing ozone systems]( "Optimizing Ozone Systems For Bromate Control And Water Quality Enhancement In High-Bromide Groundwater Treatment")
Learn how utilities can control bromate formation, optimize ozone treatment performance, and achieve regulatory compliance through improved monitoring, hydraulics, and system design.
-
![smart ozone systems]( "Smart Ozone Systems: Why Real-Time Monitoring Is Becoming Core Water Infrastructure")
Discover how real-time monitoring, automation, and smart controls help modern ozone systems improve treatment performance, efficiency, safety, and operational visibility.
-
![GettyImages-1477150258 palm trees sunset california]( "Restoring Groundwater Supplies Through Advanced Contaminant Removal")
When industrial plumes compromise critical aquifers, advanced UV-oxidation processes permanently destroy highly carcinogenic NDMA and resilient 1,4-dioxane, restoring millions of gallons of daily drinking water while reducing facility energy consumption by over eighty percent.
-
![ozone production]( "Mass Transfer Efficiency: The Most Important Metric In Ozone System Design")
Ozone output doesn’t guarantee performance. Learn how mass transfer efficiency determines how much ozone dissolves, drives treatment results, and impacts energy use and system design.
-
![Bacteria, Medical research, healthcare-GettyImages-2161239007]( "The Hidden Legionella Risk In Closed-Loop Systems")
For a long time, it’s been assumed that closed-loop water systems — those commonly found in building heating systems, air-conditioning units, and cooling systems — are at a low risk for Legionella. However, there are many reasons why closed-loop systems can actually inadvertently promote the risk of Legionella. -
![getty-1314144854-AI-water-robot-hand]( "Scaling Water Reuse: New State Regulatory Guides And What They Mean For Treatment Design")
Emerging state water reuse regulations are driving adoption of ozone and advanced oxidation, requiring flexible, high-performance systems to meet pathogen, trace organic, and DBP control objectives.
-
![GettyImages-2153059351-gloved-hand-with-test-tube-testing-water]( "EPA's Proposed Perchlorate Regulation: What It Means For Treatment Engineers And Oxidation Strategies")
EPA’s proposed perchlorate regulation challenges utilities to integrate advanced oxidation and separation technologies, enabling reliable removal, regulatory compliance, and flexible treatment for emerging contaminants.
-
![Ozone Contactors]( "Ozone Contactors: The Engineering Variable That Determines Oxidation Success")
Ozone system performance hinges on reactor design, not generator size. Efficient mass transfer, hydraulic integrity, and contact time ensure consistent oxidation, reduced energy use, and reliable treatment results.
-
![wastewater treatment plant, water management-GettyImages-2160087435]( "Engineering Beyond Obsolescence: Designing Ozone Systems That Evolve With Time")
Pinnacle’s QuadBlock ozone system allows water treatment plants to modernize ozone generation modules without replacing cabinets, extending system life, boosting efficiency, and integrating modern controls seamlessly.
DRINKING WATER DISINFECTION VIDEOS
