DRINKING WATER TREATMENT RESOURCES
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![Legionella pneumophila-GettyImages-1451790531]( "Legionella And The Need For Next-Generation Detection: Steps Water Utilities Can Take To Alleviate The Risk")
As water systems grow more complex and climate patterns shift, Legionella is emerging as one of the most persistent and underestimated risks in the built environment. The threat to public health from Legionnaires' disease will likely further escalate unless decisive action is taken.
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![Case Study: Ion Exchange Treatment Of Regulated Metals In Coal Ash Found To Be Efficient In Power Industry]( "Ion Exchange (IX) Systems")
Ion exchange (IX) is a tried-and-true method of removing metals and other inorganic compounds from water. Arsenic, cadmium, chromium, copper, lead, nickel, selenium, radionuclides, and zinc are just a few examples of the compounds that our ion exchange systems have removed from water.
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![GettyImages-2195684944 data center]( "Keep Your Cool: The Importance Of Advanced Side Stream Filtration In Data Center Operation")
Advanced side stream filtration protects sensitive cooling infrastructure in data centers, extending membrane life, reducing water and energy use, and preventing costly downtime caused by particulate-loaded cooling water.
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![Modern sewage treatment plant-GettyImages-1328743788]( "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.
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![mp5-sensor]( "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.
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![Picture1]( "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.
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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.
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![image-(10)]( "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.
DRINKING WATER TREATMENT 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.