Clearing the Air: Understanding Airborne PFAS Exposure

PFAS in air is different! From the targets of interest to the sampling and measurement techniques, everything is new and emerging.

Join us for an in-depth exploration of airborne PFAS and its implications in various environments. In this exclusive live webinar, we’ll cover key topics including US EPA methods OTM45 and OTM-50, vapor intrusion, landfill gas monitoring, and the future of personal and occupational exposure monitoring.

Our PFAS experts will discuss the methods available for measuring airborne PFAS, highlighting current technologies and best practices. You'll gain insights into how these methods are applied in real-world scenarios, and what steps you can take to ensure accurate and reliable results.

Why attend?

• Discover the latest advancements in airborne PFAS detection, including US EPA methods OTM-45 and OTM-50.

• Understand how PFAS experts apply these measurement methods in practical scenarios like vapor intrusion and landfill gas monitoring, ensuring accurate results.

• Learn how these emerging techniques are transforming environmental monitoring and how to mitigate risks.

• Get your pressing questions answered by our leading PFAS experts with strategies to manage and reduce airborne PFAS exposure in your industry.

Presenter: Nathan Eklund

Nathan is a seasoned expert with 28 years of experience in environmental consulting and emerging contaminant science. As the PFAS Practice Leader at SGS EHS North America, he focuses on advancing the emerging contaminants and specialty analytical services sector, particularly PFAS. Nathan brings a customer-centric approach to solving complex problems, leveraging his extensive background in business development, sales management, process improvement, strategic planning, client management, data analysis, and risk analysis.

Presenter: Julia Roth

Julia works closely with clients to develop optimized project solutions for vapor intrusion, industrial hygiene, fenceline monitoring, emissions, and specialty air projects. With extensive remediation consulting experience, she handles a wide range of typical and emerging contaminants across various media, including indoor air, soil vapor, sewer vapor, groundwater, soil, wastewater, leachate, landfill gas, and emissions. Her recent work has focused on PFAS volatility, resulting in several published papers and presentations. Julia holds a degree in Biological Systems Engineering from Virginia Tech, underscoring her strong technical foundation and commitment to advancing air quality and remediation practices.