CONTAMINANT REMOVAL RESOURCES
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Addressing Water Treatment Challenges: Technology Access Limitations By Small, Rural Water Utilities
With aging infrastructures, lean and limited personnel, lower budgets, and less accessible, often remote locations, smaller and rural water treatment plants are challenged in maintaining operations while understanding new and important technologies in improving contaminant removal in water treatment.
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“Emerging Contaminants" can be broadly defined as any synthetic or naturally occurring chemical that is not commonly monitored in the environment. These substances have the potential to enter the environment and cause known or suspected adverse ecological and/or human health effects.
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The U.S. PFAS water and wastewater treatment equipment market is expected to grow at over 11% from 2024 to 2031, primarily driven by stringent regulatory requirements and enhanced public awareness of PFAS contamination risks. The market was estimated at over $90 million in 2024.
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Founded in 1982, Peace River Manasota Regional Water Supply Authority supplies drinking water to a region of approximately one million people living south of Tampa Bay in DeSoto, Charlotte, Sarasota and Manatee Counties. Its surface water treatment plant draws water from the Peace River to a reservoir and treats it to drinking water standards at the rate of about 31 million gallons a day.
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This document outlines the essential steps required to exchange spent media, including disposal of spent media.
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Evaluating the use of activated carbon and other media for water treatment is a crucial step to ensure project goals are achieved.
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In this article, we outline the sources, occurrence, known health issues, and mitigation options for specific contaminants.
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This article discusses the four tenets of designing pressure vessels: Corrosion Management, Hydraulic Performance, Media Optimization, and Maintenance and Operations and its relation to optimizing PFAS removal.
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Chemical simulations powered by artificial intelligence — and a trifecta of companies — may be the beginning of the end for "forever chemicals."
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Conventional water treatment methods can remove PFAS from water, but these processes merely concentrate the contaminants instead of destroying them. However, a new photocatalytic system has been developed that directly targets and dismantles the molecular structure of PFAS, holding the potential for complete mineralization.