DRINKING WATER DISINFECTION RESOURCES
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Discover Searcy Water Utilities' solution to naturally corrosive water that began to cause problems for certain mixers.
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Denver Water has pioneered a disinfection method that’s saving millions of gallons of water, reducing staff time and nearly eliminating expensive pipe replacement do-overs.
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Read how Park City, UT was able to find an affordable solution to Giardia and Cryptosporidium that is also easy for operators of any certification level to use.
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The Department of Defense's USMC Winter Warfare Training Center needed a new CA Water Board-approved system in a very short time frame.
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Water supply from a mountain lake atop Donner Pass in the Sierra Nevada Mountains was at risk of arsenic contamination. Here’s how Applied Process Equipment solved the problem.
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There is no question that unpleasant taste and/or odor in drinking water can create negative water quality perception challenges for water utilities. Though taste and odor are not health concerns, consumers still are likely to notice and voice their concerns.
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The City of Belleville, Ontario, planned on re-developing downtown waterfront property into a public space, but there was one problem: the history of the site had led to groundwater contamination.
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Sigura™ calcium hypochlorite offers cooling tower operators and their service providers a highly effective biocide designed for controlling microorganisms to maintain system cleanliness, achieve associated production efficiency gains, and help guard against biofouling. Learn how a West Coast service provider's switch to Calcium Hypochlorite lead to a more consistent chlorine concentration and eliminated the need for frequent pump adjustments.
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Disinfection has come a long way — enough so to consider alternative options that can help water suppliers avoid harmful byproducts.
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The ozonation process for water purification is a powerful option for optimal disinfection and the reduction of micropollutants. Still, it may result in the formation of potentially toxic oxidation byproduct bromate in bromide-containing waters. This paper provides a high-level overview of the problem and highlights the main pathways of ozone decomposition and propositions to control bromates formation.