SOURCE WATER RESOURCES
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To combat drought, Abilene, Texas, implemented a reuse system utilizing O3 + BAC to remove trace organics. This solution met strict standards, ensured water resilience, and proved more cost-effective than AOP alternatives.
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Discover how German scientists piloted edible crop irrigation with reuse water at a German water reclamation facility to create a comprehensive chemical risk assessment framework, progressing reuse’s feasibility in Europe.
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In the early 2000s, I was consulting for a military contractor on expanding their mobile water treatment system for military applications. As part of that work, I researched other water supply technologies used by the U.S. military, including atmospheric water generation (AWG) — the process of extracting potable water directly from the air.
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Microplastics seem to be everywhere — in the air we breathe, the water we drink, the food we eat. Countries have tried for the past few years to write a global plastics treaty that might reduce human exposure, but the latest negotiations collapsed in August 2025. While U.S. and global solutions seem far off, policies to limit harm from microplastics are gaining traction at the state and local levels.
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Ozone and UV-AOP each offer powerful contaminant removal for drinking water, wastewater, and reuse applications. Their unique strengths—and potential synergy—help utilities meet diverse treatment goals efficiently.
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No one knows more than water utilities how changing climate conditions are impacting the challenges and costs of delivering clean drinking water to communities they serve. In a recent episode of The Water Online Show, climate experts Jesse M. Keenan from Tulane University and Edgar Westerhof of Arcadis discussed the issue of resiliency for drinking water and wastewater systems.
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In two bench-scale tests, a new technology effectively removed up to 99% of chlorides and 97% of total dissolved solids in a single pass. This solution offers a commercially viable alternative to traditional treatment methods.
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Droughts hit utilities and agriculture hardest. Shrinking water supplies wilt crops and strain water providers. But the impact extends far beyond them.
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Long-held misconceptions about lake management fuel the intensity and recurrence of harmful algal blooms.
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Artificial intelligence systems are thirsty, consuming as much as 500 milliliters of water — a single-serving water bottle — for each short conversation a user has with the GPT-3 version of OpenAI’s ChatGPT system. They use roughly the same amount of water to draft a 100-word email message.