WASTEWATER DISINFECTION RESOURCES
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![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.
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![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.
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![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.
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![pinnacle 1]( "Why Sherbrooke, Quebec Chose Pinnacle Zenith Ozone Generators To Boost Water Treatment Efficiency")
Sherbrooke, Quebec upgraded its water treatment plant with Pinnacle’s Zenith ozone system, improving disinfection, reliability, energy efficiency, and operational savings while ensuring future scalability.
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![Orlando CS]( "How Advanced Oxidation Is Tackling 1,4 Dioxane At Orlando Drum & Container")
Orlando Drum & Container eliminates hazardous 1,4 Dioxane from groundwater using Pinnacle Ozone Solutions’ Advanced Oxidation Process, restoring water quality sustainably and ensuring regulatory compliance.
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![Hidden Springs Water Treatment CS]( "What The Hidden Springs Pilot Case Study Reveals About Cutting-Edge Water Treatment")
A seven-month pilot study shows how ozone treatment reduced hydrogen sulfide and TOC at the Hidden Springs Water Treatment Facility, improving water quality and validating a scalable alternative.
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![Superior Fresh CS]( "How Superior Fresh Is Pioneering Sustainable Aquaculture With Pinnacle Ozone Solutions")
See how Superior Fresh uses advanced ozone technology to maintain pristine aquaculture water quality, supporting sustainable Atlantic salmon production and organic farming in a pioneering integrated system.
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![Becancour Water Treatment Plant]( "What Made The Becancour Water Treatment Plant A Model For Clean Water Solutions?")
Learn how Quebec’s Becancour Water Treatment Plant improved ozone efficiency, reduced maintenance, and enhanced scalability by upgrading to a modular Pinnacle Summit ozone system.
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![North Burleigh Water Treatment Plant]( "How The North Burleigh Water Treatment Plant Improved Water Quality With Innovative Technology")
See how Bismarck’s North Burleigh Water Treatment Plant boosted production 64%, reduced operating costs 20%, and improved treatment reliability using an advanced ozone system upgrade.
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![Fayetteville, Arkansas CS]( "Advanced Ozone Disinfection – City Of Fayetteville, Arkansas")
Discover how Fayetteville upgraded wastewater disinfection with advanced ozone technology, improving contaminant removal, reducing energy use, and delivering reliable, sustainable treatment for future regulatory demands.
WASTEWATER DISINFECTION VIDEOS
As aquatic invasive species continue to overwhelm hydropower, industrial, and municipal systems worldwide, this webinar explores why traditional filtration and chemicals are falling short—and how a dual-barrier UV approach is emerging as a proven, chemical-free alternative backed by global field results.
ABOUT WASTEWATER DISINFECTION
Wastewater disinfection takes place after primary, secondary and sometimes tertiary wastewater treatment. It is typically a final step to remove organisms from the treated water before the effluent is released back into the water system. Disinfection prevents the spread of waterborne diseases by reducing microbes and bacterial numbers to a regulated level.
A variety of physical and chemical methods are used to disinfect wastewater prior to it being released into natural waterways. Historically, the chemical agent of choice for municipal wastewater treatment has been chlorine, due to its disinfecting properties and low cost. However, the rising cost of chlorine and concerns that low chlorine concentrations can still be toxic to fish and other wildlife, has given rise to more physical methods of wastewater disinfection being adopted such as ozonation or ultraviolet (UV) light.
The use of ozone as a disinfection agent has the added benefit of increasing the dissolved oxygen content of the treated wastewater. However, because the ozone has to be generated, ozonation can require prohibitive up-front capital expenditure compared to traditional chlorination. UV disinfection has been growing in popularity as a wastewater disinfection method, in large part because of the life-cycle economics of the equipment and the fact that, like ozone, there is no toxic residual.