Join our host Craig Divine and our guest Charles Schaefer.
You are listening to The PFAS Research and Remediation Podcast, produced and created by Arcadis with funding from the Environmental Security Technology Certification Program, ESTCP grant number ER-23 7692 through the United States Department of Defense.
The Environmental Security Technology Certification Program (ESTCP) is the U.S. Department of Defense’s environmental technology demonstration and validation program. The program’s goal is to identify and assess innovative technologies that address DoD’s high-priority environmental requirements efficiently and cost-effectively.
In this second season, we're focused on PFAS and interview a broad panel of experts who have each contributed to the growing knowledge base around remediating this emerging chemical of concern. Today we'll be speaking with Dr. Charles Schaefer, an environmental scientist and director of CDM Smith’s research lab in Bellevue, Washington. His work focuses on understanding and treating PFAS contamination in groundwater and soil. A leading researcher with over 50 scientific publications, he has led major SERDP and ESTCP projects and received multiple Project of the Year awards. Today, we’ll be talking with him about several projects exploring how PFAS move through the unsaturated zone in AFFF source areas and potentially migrate into groundwater.
All content for Arcadis North America is the property of Arcadis North America and is served directly from their servers
with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.
Join our host Craig Divine and our guest Charles Schaefer.
You are listening to The PFAS Research and Remediation Podcast, produced and created by Arcadis with funding from the Environmental Security Technology Certification Program, ESTCP grant number ER-23 7692 through the United States Department of Defense.
The Environmental Security Technology Certification Program (ESTCP) is the U.S. Department of Defense’s environmental technology demonstration and validation program. The program’s goal is to identify and assess innovative technologies that address DoD’s high-priority environmental requirements efficiently and cost-effectively.
In this second season, we're focused on PFAS and interview a broad panel of experts who have each contributed to the growing knowledge base around remediating this emerging chemical of concern. Today we'll be speaking with Dr. Charles Schaefer, an environmental scientist and director of CDM Smith’s research lab in Bellevue, Washington. His work focuses on understanding and treating PFAS contamination in groundwater and soil. A leading researcher with over 50 scientific publications, he has led major SERDP and ESTCP projects and received multiple Project of the Year awards. Today, we’ll be talking with him about several projects exploring how PFAS move through the unsaturated zone in AFFF source areas and potentially migrate into groundwater.
Aircraft Rescue and Firefighting Vehicle System Characterization and Cleaning
Arcadis North America
19 minutes 15 seconds
1 year ago
Aircraft Rescue and Firefighting Vehicle System Characterization and Cleaning
Join our host Dr. Johnsie Lang and our guest John Anderson.
You are listening to The PFAS Research and Remediation Podcast, produced and created by Arcadis with funding from the Environmental Security Technology Certification Program, ESTCP grant number ER-23 7692 through the United States Department of Defense.
The Environmental Security Technology Certification Program (ESTCP) is the U.S. Department of Defense’s environmental technology demonstration and validation program. The program’s goal is to identify and assess innovative technologies that address DoD’s high-priority environmental requirements efficiently and cost-effectively.
In this first season, we're focused on PFAS and interview a broad panel of experts who have each contributed to the growing knowledge base around remediating this emerging chemical of concern. Today we'll be speaking with John Anderson, Principal Wastewater Engineer at Arcadis. John specializes in PFAS remediation and has recently focused on the removal of PFAS residuals from fire-suppression systems. He is the principal investigator on project #ER21-7229, titled "Aircraft Rescue and Firefighting Vehicle Cleaning Assessment", which looks at PFAS left behind in a firetruck following removal of the PFAS-containing AFFF and water flushing. Dr. Johnsie Lang, PFAS Technical Expert with Arcadis North America will be our host today.
All opinions, interpretations, and conclusions expressed belong to the hosts and guests and do not represent views or policies of the Department of Defense, Arcadis, or guest affiliations.
Arcadis North America
Join our host Craig Divine and our guest Charles Schaefer.
You are listening to The PFAS Research and Remediation Podcast, produced and created by Arcadis with funding from the Environmental Security Technology Certification Program, ESTCP grant number ER-23 7692 through the United States Department of Defense.
The Environmental Security Technology Certification Program (ESTCP) is the U.S. Department of Defense’s environmental technology demonstration and validation program. The program’s goal is to identify and assess innovative technologies that address DoD’s high-priority environmental requirements efficiently and cost-effectively.
In this second season, we're focused on PFAS and interview a broad panel of experts who have each contributed to the growing knowledge base around remediating this emerging chemical of concern. Today we'll be speaking with Dr. Charles Schaefer, an environmental scientist and director of CDM Smith’s research lab in Bellevue, Washington. His work focuses on understanding and treating PFAS contamination in groundwater and soil. A leading researcher with over 50 scientific publications, he has led major SERDP and ESTCP projects and received multiple Project of the Year awards. Today, we’ll be talking with him about several projects exploring how PFAS move through the unsaturated zone in AFFF source areas and potentially migrate into groundwater.
