DRINKING WATER TREATMENT RESOURCES
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With applications for drinking water, wastewater, and reuse, XBAT — ion exchange-based advanced treatment — could have revolutionary, far-reaching impacts for utilities.
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Utilities need to revisit mistakes of the past and ask tough questions about what it truly means to treat and remove PFAS.
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Discover how Chlorine Dioxide's superior disinfection power, combined with advanced testing systems like Kemio, ensures safer, more efficient water quality management across various applications.
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This guide can help operators ensure seamless granular activated carbon (GAC) media changeouts, minimizing downtime and maintaining high water quality standards.
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Ozone and biologically active filtration (O3-BAF) can act as an additional barrier for existing systems to protect against emerging contaminants and water quality events.
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As cities grow and face environmental challenges, the concept of urban resilience becomes increasingly important. A recent study discusses the theoretical framework needed to build a smart water network that can enhance the resiliency of urban environments. It also reveals the critical technologies, including advanced metering infrastructure (AMI), that are key to pulling it all together.
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While pilot columns provide the most accurate estimations for predicting full-scale PFAS treatment performance by GAC or IX resin, they can be costly and time-consuming. Rapid small-scale column tests (RSSCTs) offer significant advantages over pilot columns, including less time, lower costs, less media, smaller sample volume, and faster data turnaround.
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The widespread adoption of Big Data has the potential to revolutionize water resource management, expanding the possibilities of water-related work and altering the development of water systems to improve sustainability in both agriculture and metropolitan areas.