Pittsburgh, PA -Over the past year, the Pittsburgh Water and Sewer Authority (PWSA) and the University of Pittsburgh’s School of Computing and Information (SCI) and University Center for Social and Urban Research (UCSUR) have collaborated on a machine learning model that will help better predict the locations of remaining lead service lines in PWSA’s water distribution system.  

Since PWSA’s compliance testing exceeded the Environmental Protection Agency’s (EPA) action level for lead in 2016, we have been hard at work to identify the location of lead service lines, replace them with a non-lead material, and optimize the water treatment process to reduce the risk of lead at the approximately 8,000 homes with lead service lines. Through this partnership, PWSA will better be able to predict the locations of lead lines where no reliable record is found, avoiding costly excavations and impact to our customers.   

Probability results are shown layered over a map of the City of Pittsburgh

Understanding the Inventory  

The Community Lead Response team at PWSA prioritizes lead line replacements during water main projects by considering both historical data about our water distribution system and public health metrics to address areas with our highest-risk residents, like children under six years and women of child-bearing age. The ultimate goal is to replace older water mains that have a high percentage of lead lines attached that are located in areas with high concentrations of at-risk populations. While population data and blood-lead level data is readily available from various government entities, comprehensive data on the locations of lead service lines is often outdated or incomplete.

PWSA has primarily relied on a collection of documents that are created when a home or business is first built. The sheet contains information on how the service line to the building was installed, including the material of the pipe. Over the years, some records may have been lost, damaged, or become outdated as the service line may have been replaced. For this reason, we had to expand our pool of data to make determinations about lead service lines.  

To gain a clearer understanding of where remaining lead service lines are located, we have used various historical records and investigations to find lead service lines, including: 

• Curb box inspections – this is a process that involves cleaning out the curb stop, usually located in the sidewalk, to view the shut off valve attached to the service line. In some cases, this is an effective way to identify lead material. 
• Meter inspection data – PWSA is replacing thousands of water meters per year. When replacing the meter, crews can view the material of the private service line coming into a building and can determine if it is lead or not. 
• Property Assessment Data – the age of a building can give a better understanding if lead was used for the service line. Lead was commonly used as a pipe material in the 1920s through the 1950s. 
• Water samples – a positive result of lead in a water sample taken by a resident may indicate there is a lead service line at the property.  
• Historical service line documents 

Comparing and organizing this amount of data is a daunting challenge and no one data point is robust enough to make accurate assessments. PWSA began this collaboration with the SCI and UCSUR to create a machine learning model that would help make sense of the various streams of information.