CONTAMINANT REMOVAL RESOURCES
-
Some industry professionals have concluded eliminating the use of grinders will prevent microplastics from entering the water cycle. This thinking is wrong for a range of reasons.
-
Water systems are complex, and many things can go awry that can cause a once-compliant plant to fall out of compliance or cause a compliance solution to fail at startup.
-
Discover how a small town in Delaware addressed PFAS that were detected in three public wells, impacting more than 1,250 residents and businesses.
-
Smaller water utilities may be in a panic over the EPA's proposed federal limits on PFAS, but there are two reasons for these smaller utilities to remain hopeful.
-
There are a few things that smaller water treatment plants should keep in mind when homing in on the most viable technologies for PFAS.
-
A recent study revealed some shocking facts. Researchers provided data that points to more than 200 million Americans who must depend on contaminated drinking water. PFAS, or "forever chemicals", are now in the drinking water of 60% of the U.S. population.
-
Global water usage has increased multifold over the recent decades due to various factors, including consistent population growth, changing consumption patterns, and fast-paced economic growth.
-
An environmental engineer who develops techniques to remove PFAS explains what the proposed guidelines would require, how water utilities could meet these requirements, and how much it might cost to get these so-called forever chemicals out of U.S. drinking water.
-
Domestic cooking has taken a back seat across several developed economies, given the steady rise in the female workforce and subsequent lack of time. This, along with significant improvement in disposable incomes, has been playing a critical role in accelerating the shift toward processed food and beverages.
-
The long-term performance of colloidal activated carbon to eliminate PFAS exposure risk is proven on sites globally.