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How’s Your Plumbing? A Common pipe alloy can form a cancer-causing chemical in drinking water.

How’s Your Plumbing? A Common pipe alloy can form a cancer-causing chemical in drinking water.

The rusted interior of this water pipe contains chromium. This reacts with residual water disinfectants to form carcinogenic hexavalent chromium.

A study by engineers at UC Riverside showed that rusted iron pipes can react with residual disinfectants in drinking water distribution systems to produce carcinogenic hexavalent chromium in drinking water.

Chromium is a metal that occurs naturally in the soil and groundwater. Trace amounts of trivalent chromium eventually appear in the drinking water and food supply and until now have been considered safe, with neutral effects on health.

Chromium is often added to iron to make it more resistant to corrosion.

Certain chemical reactions can change chromium atoms into a hexavalent form that creates cancer-causing genetic mutations in cells.

This carcinogenic form of chromium was at the heart of a lawsuit in California's Central Valley by Erin Brockovich, which became the subject of an Oscar-winning movie.

Haizhou Liu, professor of chemical and environmental engineering at the Marlan and Rosemary Bourns College of Engineering who studies water treatment chemistry, had an idea that some of the chromium found in drinking water might come from chemical reactions between water disinfectants and the chromium in cast iron corrosion scales.

Along with doctoral student Cheng Tan and postdoctoral scholar Sumant Avasarala, Liu obtained segments of two pipes that had been in service for about five and 70 years respectively and induced corrosion on portions.

After scraping the rust off, grinding it to a powder, and measuring the amount and types of chromium present, the researchers put the samples in hypochlorous acid, the form of chlorine typically used in municipal drinking water treatment plants and drinking water distribution systems.

Previous experiments had shown that water disinfectants could transform trivalent chromium into toxic hexavalent chromium, but the group was surprised when zerovalent chromium that was detected in the rusted iron pipes transformed more quickly to the toxic form.

They followed up with modelling experiments that showed a range of possibilities for how much hexavalent chromium could come out of the tap under real-world conditions.

The worst-case scenario occurred in drinking water with high bromide levels.

"These new findings change our traditional wisdom on hexavalent chromium control in drinking water and shine a light on the importance of managing the drinking water distribution infrastructure to control toxic substances in tap water," Liu said.

The paper cautions that as the world's water crisis intensifies, recycled and desalinated water— both of which tend to contain higher bromide levels—will become more important, highlighting the need to understand and prevent chromium contamination.

It recommends reduced use of pipes with high levels of chromium alloy and use of a disinfectant less reactive with chromium, such as monochloramine.

More information: Cheng Tan et al, Hexavalent Chromium Release in Drinking Water Distribution Systems: New Insights into Zerovalent Chromium in Iron Corrosion Scales, Environmental Science & Technology (2020). DOI: 10.1021/acs.est.0c03922Journal information:
Environmental Science & TechnologyProvided by University of California – Riverside

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