Business & Society

New Report Says Lack of Funding for Critical Water Mains is $452 Billion in U.S., Canada

A new report published by the Utah Water Research Laboratory shows deteriorating water mains cause adverse effects in flow capacity, system pressure and water quality. This file photo from The Herald Journal newspaper in Logan, Utah, shows crews responding to a water main break in February 2024. (Photo Credit: The Herald Journal/Eli Lucero)

Utah State University has published a third extensive study of commonly used waterpipe materials, titled “Water Main Break Rates in the USA and Canada: A Comprehensive Study.”

According to primary researcher, Professor Steven L. Barfuss, P.E., one of the most important indicators for identifying failing pipelines is water main break rates. Pipe performance continues to be impacted by soil corrosivity, and the replacement of asbestos cement and cast-iron pipe is creating a shift in predominant pipe materials.

“Our infrastructure is aging, causing water pipelines to deteriorate,” Barfuss says. “Utilities can use this report to assist with asset management and facilitate water infrastructure planning and pipe replacement decision-making. The goals are to control operating costs, reduce service level impacts and minimize health risks to customers.”

Over 800 utilities were surveyed and almost 400,000 miles of pipe data were analyzed, representing 17% of the estimated 2.3 million miles of water mains in the United States and Canada. This data set is large enough to provide accurate information on the characteristics of aging pipe infrastructure and the costs of repair and replacement.

“Notably, the report shows that 20% or 452,000 miles of water pipes in the U.S. and Canada are beyond their useful lives and need to be replaced but have not been due to lack of funds,” Barfuss adds. “This represents a $452 billion shortfall. In 2012, utilities reported that only 8% of installed water mains were beyond their useful lives, so this is a growing problem.”

USU published similar studies in 2012 and 2018. The 2023 report references the previous studies to analyze changes over time. The sample size for this study is almost three times larger than the previous 2018 USU water main break survey. In terms of pipe mileage, this is the largest study in the U.S. and Canada of its kind. Previous studies have been based on much smaller sample sizes and consequently may have reduced accuracy in data reporting.

Major findings and benchmarks include:

  • The U.S. and Canada experience 260,000 water main breaks annually, representing $2.6 billion in annual repair costs.
  • Utilities reported the average failure age of water pipe is 53 years. Notably, 33% of water mains are over 50 years old, representing 770,000 miles of piping.
  • In 2018, cast iron and asbestos cement together represented 41% of all installed water mains. In 2023, the combined length for these materials is 33%, a reduction of almost 8%. PVC pipe length increased by 7% and ductile iron remained approximately the same.
  • Material usage varies significantly across geographic regions, suggesting that selection of pipe materials is often based on preference.
  • A total of 86% of cast iron pipe is over 50 years old and 41% of asbestos-cement pipe is more than 50 years old.
  • The estimated average water loss to leakage is 11%.
  • Overall failure rates decreased by 20% since 2018, which seems to correlate with reduced inventory of cast iron and asbestos cement pipe, both of which have the highest break rates.
  • A reconfirmed major finding is that PVC pipe has the lowest break rate when compared to cast iron, ductile iron, steel and asbestos cement pipes.
  • Almost 86% of water pipes in the U.S. and Canada are less than 12 inches in diameter.
  • Smaller pipes (12 inches in diameter and less) fail five times more than larger pipes (14 inches and larger).
  • A total of 75% of utilities reported corrosive soil conditions, which is consistent with the 2012 and 2018 USU studies — demonstrating the importance of corrosion mitigation for water pipelines.
  • Ductile iron pipe has over six times more failures in highly corrosive soils compared to low corrosive soils.
  • The percentage of utilities approving ductile iron has decreased by 8% from 86% in 2018 to 78% in 2023. Steel pipe has shown a 6% increase in acceptance from 38% to 44%. Acceptance rates for other pipe materials have remained about the same.
  • Almost 44% of utilities conduct some form of regular condition assessment of water mains.

A copy of the full report, including the full set of key findings and its methodology, is available through USU Libraries Digital Commons.

This comprehensive study contributes to the continuing efforts of the EPA's Aging Water Infrastructure (AWI) research, the US Conference of Mayors’ Water Council, and the asset management and water infrastructure condition assessment efforts of the American Water Works Association (AWWA) and American Society of Civil Engineers (ASCE).

Steven L. Barfuss, P.E., is a Research Professor at USU in the Civil and Environmental Engineering Department and an Associate Director at the Utah Water Research Laboratory (UWRL), a world-renowned water research facility. Professor Barfuss has over 37 years of research experience at UWRL and has published numerous peer-reviewed articles in national and international journals. He also has considerable experience in the hydraulics of pipelines and pipe failures.

CONTACT

Samantha Stone
617-365-5829
samantha@stoneridgeconsult.com

Steven Barfuss
Water Hydraulics
Utah Water Research Laboratory
435-797-3214
steve.barfuss@usu.edu


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Engineering 336stories Water 257stories

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