DRINKING WATER TREATMENT RESOURCES
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On numerous levels, oxidation-reduction potential (ORP) outperforms the presently predominant metric for evaluating disinfection performance.
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The most common techniques for disposing of PFAS may no longer be good enough.
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This article will explore five common misconceptions about GAC and IX technologies for PFAS removal, helping utilities choose effective, site-specific treatment strategies for contaminated drinking water.
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Accurate measurement and control technologies are essential for achieving sustainability in water and wastewater operations by reducing energy use, minimizing losses, and optimizing chemical dosing.
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This article explores how IDE Technologies leveraged advanced in-house simulation capabilities to deliver a revised brine diffuser design, significantly improving both environmental outcomes and operational efficiency.
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This article will clarify the essential aspects of turbidity, how it can affect human health, and how best to measure and mitigate it.
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Drinking water systems across America face a mounting PFAS threat with starkly different capacities to respond. Large urban utilities typically have ample resources to detect and remove these persistent chemicals from water supplies, while small rural systems operate with tight budgets, skeleton crews, and minimal technical support.
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It is critical to understand the limitations of permanent installations and how a temporary water treatment system can make sound logistical and financial sense.