PFAS Assessment and Mitigation
Battelle is leading the way in development of new solutions for emerging environmental problems—like per- and polyfluoroalkyl substances (PFAS). We possess deep subject matter expertise and insight to find clarity in the midst of uncertainty. We're solving challenging environmental problems through highly focused and sustained investments.
PFAS are commonly used in firefighting foams as well as water-repellent materials, non-stick cookware and takeout containers. The substances are fluorinated organic chemicals and include PFOA (commonly referred to as C8 or ammonium perfluorooctanoate) and PFOS (perfluorooctane sulfonate). Research is urgently needed to better understand the fate and transport of the substances and how contaminated sites can best be remediated to minimize environmental and human health concerns.
Accredited for more PFAS analytes/matrices than any other U.S. lab.
Contact us today for a quote.
At Battelle, we bring together all the expertise you need under one roof—including analytical chemistry, environmental science, toxicology and data analytics, with extensive experience in sampling, handling and analyzing these challenging compounds. This allows us to go beyond standard methods and develop new approaches to characterize and mitigate contamination in even the most challenging environments.
Field Sampling for Site Assessment, Characterization and Monitoring
Battelle can help you accurately measure and understand the extent and severity of your contamination. We developed a Standard Operating Procedure for sampling procedures and handling these substances. Our field team will work with you to develop a cost-effective sampling plan tailored to the characteristics of your site and the questions you need to answer.
- State-of-the-art sampling methods for low-level detection, high-resolution site characterization, source zone characterization and analysis of comingled contaminant plumes
- New method development for low-level detection, including passive sampling technologies
- Long-term monitoring strategies
- Modeling and 3D visualization tools to help you understand the nature, extent, fate and transport of contaminants on your site and analyze exposure scenarios
Analytical Lab Services
Our analytical lab uses validated methods that are based on EPA Method 537.1 and is accredited for detection of PFAS in soil, sediment, tissues and water according to DoD QSM version 5.1. We apply rigorous quality controls in our PFAS lab to accurately measure even trace levels of these substances in sediments, soils, water and biological tissues.
Our lab provides:
- High-quality, defensible data with detection limits (parts per trillion range for waters and low parts per billion range for soils and sediments)
- New method development and optimization
Remedy Selection and Optimization
Battelle is conducting research to define strategies for PFAS remediation. We apply the knowledge gained in our research to help you design approaches for your problem and remediation methods.
Our services include:
- Feasibility studies to evaluate the cost and effectiveness of different remediation options based on site characteristics, contaminant levels and cleanup goals
- New remedy development, selection and design
Need help with PFAS contamination?
At Battelle, we don’t just give you data—we help you understand it and communicate with your stakeholders. We use advanced analytical methods grounded in the latest research on PFAS impacts to give you an accurate, objective evaluation of human health and ecological risks. We also provide support for publications and public meetings to address stakeholder concerns
Battelle provides industry-leading environmental toxicology services, including general, developmental and reproductive, neurobehavioral, cardiopulmonary and inhalation. We design and conduct toxicology studies to help the industry better understand the toxic effects and exposure risks of PFAS. Our toxicology team provides clear, defensible data for environmental impact studies and analysis of human health impacts.