Gaps in the current water quality monitoring framework leave millions of Americans at risk of exposure to harmful contaminants in their drinking water. For the 23 million American households who receive their drinking water from a private well , there is no federal requirement for monitoring. In the case of public water systems, the monitoring framework is insufficient for contaminants that originate between the treatment plant and customers’ taps. New approaches for monitoring drinking water quality at the household level are needed by both public water systems entrusted with providing safe drinking water to their customers and by private well owners concerned about the health of their families.
Our vision is to promote access to safe drinking water for all people through a simple, cost-effective, and equitable approach for monitoring water quality at the tap.
Trusted Tap is an NSF Convergence Accelerator funded project with a transformative approach to deploy commercially available point-of-use (POU) filters as monitoring devices. During its use, a POU filter accumulates contaminants. We have pioneered techniques to extract these contaminants from the filter for analysis. Because a POU filter accumulates contaminants from the entire volume of water that passed through it, the extracted amount reflects the total amount of the contaminant in the influent water during filter use. When combined with the volume of water treated (measured directly by many commercially available filters or estimated from water use trends), the contaminant amount can be converted to a volume-averaged concentration that reflects water quality over the entire duration of POU filter use. This approach is advantageous over current single, small-volume grab sampling.
Leadership Team
Daniel Giammar, WashU
Walter E. Browne Professor of Environmental Engineering & Director, Center for the Environment
Principal Investigator
Fangiong Ling, WashU
Assistant Professor Energy, Environmental & Chemical Engineering
Co-Principal Investigator
II Luscri, WashU
Managing Director, Assistant Vice Provost for Innovation & Entrepreneurship, Professor of Practice in Entrepreneurship
Co-Principal Investigator
Kim Parker, WashU
Associate Professor of Energy, Environmental & Chemical Engineering
Co-Principal Investigator
John Scott, University of Illinois
Associate Research Scientist, Senior Analytical Chemist
Co-Principal Investigator
Steve Wilson, University of Illinois
Principal Research Scientist, Hydrology at the Illinois State Water Survey
Co-Principal Investigator
Community Partners
University Partners
Publications
- Johnson, Elizabeth R., Weiyi Pan, and Daniel E. Giammar, Capture and Extraction of Particulate Lead from Point-of-Use Filters, ACS ES&T Engineering, 2(11): 2058-2065, 2022.
- Pan, Weiyi, Elizabeth R. Johnson, and Daniel E. Giammar, Accumulation on and Extraction of Lead from Point-of-use Filters for Evaluating Lead Exposure from Drinking Water, Environmental Science: Water Research & Technology, 6: 2734-2741, 2020.
- Weiyi Pan and Daniel E. Giammar, Point-of-use Filters for Lead Removal from Tap Water: Opportunities and Challenges, Environmental Science & Technology, 56(8): 4718-4720, 2022.
- Wang, Zehua, Priya Gupta, and Daniel E. Giammar, Residential point-of-use (POU) filters can be used to monitor multiple metals in drinking water, Environmental Science & Technology, 59(41): 22202-22211, 2025.
Presentations
- Presentation at the Society of Environmental Toxicology and Chemistry (SETAC) Ozark-Prairie & Mid-South Joint Regional Meeting: “Assessing point-of-use carbon filters as passive sampling devices to monitor organic contaminants in drinking water” by Jean Brownell (PI: Kimberly Parker)
- Presentation at the Association of Environmental Engineering & Science Professors (AEESP): “Assessing point-of-use carbon filters as passive sampling devices to monitor organic contaminants in drinking water” by Jean Brownell (PI: Kimberly Parker)
- Presentation at the 11th Microbial Ecology and Water Engineering Conference: “An effective and reproducible sampling procedure for microbial communities with point-of-use activated carbon
filters” by Yirong Xu (PI: Fangqiong Ling)
Media
NSF grant funds collaborative water-safety innovation
University of Illinois scientists are developing a way for households to monitor the quality of their drinking water as part of a $5 million National Science Foundation-funded project led by Washington University in St. Louis.
Can we make drinking water safer?
This WashU program taps into a simple solution using household water filters to monitor and track safety.
WashU’s Trusted Tap will empower households to monitor water quality
Water utilities regularly monitor drinking water supplies. But once water enters the individual plumbing of households, there are no checks on what’s coming out of the tap.
Contact the team at:
This project has been funded through the NSF Convergence Accelerator –
