PFAS RESOURCES

PFAS SOLUTIONS

  • PFAS Concentrated Waste Disposal Solved
    2/2/2023

    AVANTech has developed a proven, field tested strategy for minimizing waste generation and eliminating potential landfill leaching, and ultimately breaking the PFAS life cycle. 

  • Putting PFAS In The Past
    1/13/2023
    Michelle Bellanca, CEO of cleantech company Claros Technologies, shares her thoughts on how to fix the nation's PFAS problem.
  • Per- And Polyfluoroalkyl Substances (PFAS) Treatment And Removal
    1/9/2023

    It is from their nuclear experience that AVANTech’s expertise in the removal of per- and polyfluoroalkyl substances (PFAS) was developed. The low concentrations of PFAS in wastewater and the hazardous nature of concentrated adsorbents are similar to those in past applications.

  • Understanding New PFAS Rules For Water
    12/20/2022
    A flurry of proposed PFAS rules, combined with ongoing legal challenges and uncertainties, have left many in the drinking water community confused about what it all means for the industry. To answer some common questions, I sat down with two experts: Craig Butt of SCIEX and Christopher Higgins of the Colorado School of Mines.
  • GAC Small Scale Treatment Solutions
    9/20/2022

    AdEdge has developed standardized systems to help municipalities and their consulting engineers address contaminants as quickly and cost effectively as possible while not sacrificing on key design features that will allow for simple operation and a long system life.

PFAS MULTIMEDIA

In this episode of Water Talk, Angela Godwin meets with Martin Bureau to discuss how PFAS is affecting communities and what solutions ALTRA is providing.

ABOUT PFAS

Per- and polyfluoroalkyl substances (PFAS) are a group of man-made chemicals that have sometimes been called “forever chemicals” for their persistent nature in the environment, difficulty to remove through treatment, and bioaccumulation in humans and animals. Two types of PFAS — perfluorooctane sulfonate (PFOS) and perfluorooctanoic acid (PFOA) — have been identified as toxic by the U.S. EPA, while many more of the nearly 5,000 PFAS formulas are either suspected contaminants or have yet to be studied thoroughly. Originally developed for non-stick coatings, stain-repellant fabric treatments, and firefighting foams, PFAS are especially prevalent near former areas of high use — such as manufacturing facilities, airports, military bases, or the sites of large fires — yet widely problematic.

In February 2020, the EPA issued preliminary determinations to regulate PFOA and PFOS under the Safe Drinking Water Act (SDWA) and establish the first national PFAS monitoring and treatment requirements for drinking water utilities (see EPA’s PFAS Action Plan). Numerous U.S. states, however, have already developed rules and guidance for PFAS.

This solution center addresses the topics and questions most important to drinking water professionals as the PFAS issue evolves — How does PFAS get into drinking water? How do utilities monitor for PFAS? What treatment technologies remove PFAS? What are the regulatory limits for PFAS? — with answers provided through breaking news stories, editorial insight, and technical discussions.