SOURCE WATER RESOURCES
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In April 2024, the U.S. EPA introduced new regulations1 establishing maximum contaminant levels (MCLs) for six specific per- and polyfluoroalkyl substances (PFAS) in drinking water, highlighting the urgency to address their presence due to environmental and health risks. The regulations mandate MCLs for individual PFAS and utilize a hazard index for mixtures to ensure safe levels are maintained. Additionally, the EPA proposed the best available technologies for PFAS treatment and disposal methods for residuals, emphasizing the need for effective and sustainable water treatment solutions.
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How a potential contaminant itself can be utilized in treatment to remove other contaminants.
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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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As scientists build proof of water on Mars, we hope our intergalactic neighbors use it wisely.
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When you think of urban wildfires, you might picture charred trees and houses. But beneath the surface of nearby streams, fires can also cause a silent upheaval — one that affects populations of creatures that are important indicators of the water's health.
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Water scarcity affects regions around the globe, prompting a need for innovative conservation methods in residential settings. To this end, modern homes increasingly integrate smart technologies and thoughtfully water-efficient designs to reduce consumption without sacrificing comfort or functionality.
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Discover how Aquapolo Ambiental tackled RO membrane biofouling with HOD™ UV technology, achieving 30-35% longer membrane life, reduced chemical use, and enhanced water reuse efficiency.
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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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Businesses, governments, and communities can all play a role in safeguarding water quality by embracing a multifaceted policy framework that integrates modern technology with a focus on mitigating public health risks. In this article, we'll analyze exactly how water quality affects public health, how policy has shaped modern water quality, and what types of policies will be needed in the future.
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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.