Collaborative Research: Advanced Oxidation Processes for the Control of Iodinated Disinfec — NSF Award to Stevens Institute of Tec
Chemical oxidants such as chlorine are widely utilized as disinfectants to inactivate waterborne pathogens in conventional water treatment processes. However, chlorine can react with various background constituents in drinking water sources (e.g., natural organic matter, bromide, and iodide) to form undesirable and tox
| Award title | Collaborative Research: Advanced Oxidation Processes for the Control of Iodinated Disinfec |
|---|---|
| Award ID | 2602795 |
| Awardee | Stevens Institute of Technology |
| City | HOBOKEN |
| State | NJ |
| Amount obligated | $147,737 |
| Principal investigator | Tao Ye |
| Program | EnvE-Environmental Engineering |
| Start date | 11/01/2025 |
| Abstract | Chemical oxidants such as chlorine are widely utilized as disinfectants to inactivate waterborne pathogens in conventional water treatment processes. However, chlorine can react with various background constituents in drinking water sources (e.g., natural organic matter, bromide, and iodide) to form undesirable and toxic disinfection byproducts (DBPs). Currently, the US EPA regulates the maximum contaminant levels (MCLs) of 11 DBPs in drinking water including 4 trihalomethanes (THMs), 5 haloacet |
| Source | NSF Awards |
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