Featured Post

PROFILE : My journey to Professional Registration - Innocent Gininda

Innocent Gininda shares his journey to becoming a registered Professional Engineer (PrEng), emphasizing the importance of mentorship, early preparation, and understanding ECSA requirements. He offers advice to aspiring PrEngs, highlighting the value of diverse feedback and a positive mindset. My journey to becoming a registered Professional Engineer (PrEng) culminated successfully in November 2024. I was fortunate to begin my career at a company with a Commitment and Undertaking (C&U) Agreement with ECSA and a robust mentorship program. This commitment to training engineers to the standard required for Professional Registration provided me with essential resources and a structured path to track my experience against ECSA requirements. Early exposure to these expectations instilled a positive outlook on registration and solidified my desire to achieve this milestone. My views on Professional Registration have remained consistently positive throughout this journey. Working alongside ...

NEWS: What worries engineers the most about U.S. infrastructure

Water and sewer systems built in the mid-19th century weren't meant to handle the demands of modern cities, and many bridges and levees have aged well past their intended lifespan.

Christine Kirchhoff’s family were preparing to move into a new house when Hurricane Harvey hit Houston in 2017. Then the massive storm dumped 50 inches of rain on the area in just a few days, leaving two nearby reservoirs so full that their operators were forced to open the floodgates. Kirchhoff’s family had to be evacuated by boat. Both their original and new houses were inundated.

As an associate professor of civil and environmental engineering at Pennsylvania State University, Kirchhoff spent a lot of time thinking about water even before it swallowed her family’s livelihood. She is part of the legion of professionals behind the complex, often invisible systems that support American life: dams, roads, the electric grid, and much more.

For the last 25 years, the American Society of Civil Engineers has been sounding the alarm on the state of that infrastructure across the country. In their most recent assessment, for example, transit scored a D- and hazardous waste a D+. It’s an expensive problem to ignore. The ASCE estimates current infrastructure conditions cost the average family $3,300 a year. “Everyone is paying whether they know it or not,” Kirchhoff says.

Train derailments, highway and bridge collapses, and dam failures have become increasingly common. But which areas are civil engineers most concerned could cause imminent catastrophe, and what can we do about it? Kirchhoff and other infrastructure experts weigh in.

Water contamination crises are already here 

The engineers we talked to agreed: our water systems are in trouble. Both those that protect us from water as a hazard (stormwater, dams, levees, bridges) and those that help us manage water as a resource (drinking water, wastewater, inland waterways) are in grim shape. 

The United States’ 2.2-million-mile drinking water and 800,000-mile sewer system was developed in part in response to the widespread waterborne diseases of the mid nineteenth century, Kirchhoff says. Maintenance has lagged woefully behind since then; some older areas, including some cities in the northeast, still use century-old wooden pipes. And many more of our pipes nationwide are still made of lead.

 A water system designed for yesterday’s climate and to filter yesterday’s contaminants is especially problematic in a world of increasing demand, fiercer and more frequent storms, and “forever” chemicals. The result: boil orders, water main breaks, and sewer overflow, plus 15 percent of our water treatment plants working at or over capacity. These issues, combined with the toxicity of lead pipes, lead to water crises like the one that continues to plague Flint, Michigan.

Amlan Mukherjee, the director of sustainability focusing on infrastructure at WAP Sustainability Consulting, recommends focusing on these pipes—swapping lead for PVC or other materials and fixing the leaks that spill some 6 billion gallons of treated water a day—as one high priority fix.

Our coastline is also dotted with facilities storing hazardous oil and other chemical waste cocooned in donut-shaped earthen structures, adds Bilal Ayyub, a professor of civil and environmental engineering at the University of Maryland at College Park—structures that, he notes, could be made of concrete. Because of soil’s vulnerabilities, he worries that dramatic rainfall or a storm surge could destroy these structures, resulting in a release of toxic chemicals “bigger than the Exxon Valdez spill by orders of magnitude.”

His worst-case scenario has already happened at least once, when floodwaters from Hurricane Harvey ate through the earthen container at the San Jacinto River Waste Pits, releasing noxious waste into a nearby river.

Physical collapse is happening now

Meanwhile, the number of high-hazard-potential dams in the United States now tops 15,000. Many were built during or before the WWII era and have been widely neglected since then. And when it comes to bridges, “there are cautionary tales all over,” says Maria Lehman, president of ASCE and vice chair of the Biden Administration’s National Infrastructure Advisory Council. “Every county in the country has a list of bridges that, if they had money, they would replace tomorrow.” 

Our 617,000 bridges include not just those spanning mighty rivers but also every highway overpass and minor link across a stream—and close to one tenth of them are significantly compromised. “If you have to think in terms of catastrophe, we’re already there,” Mukherjee says. In 2007, the collapse of an I-35W bridge in Minnesota killed 13 people and injured 145. More recently, a six-lane bridge over the Mississippi was closed for three months in 2021, disrupting interstate travel and shipping because an inspector missed a significant crack. Americans drive 178 million trips on structurally deficient bridges each day. 

Yet the US spends only 1.5-2.5 percent of its GDP on infrastructure, proportionately less than half of what the European Union spends, Lehman says. This long-term lack of funding has run out the clock on many solutions. Many of our bridges were built to last 30-50 years, but nearly half are at least half a century old. The average age of our levees is also 50; our dams average 57.

Now, extreme weather is intensifying just as structures fail. We’ve already seen consequences in the devastation of Hurricane Katrina in 2005, for example, when collapsing levees inundated 80 percent of New Orleans, killing hundreds, or in the failure of an under-inspected dam in Edenville, Michigan, which flooded the region and destroyed thousands of homes in 2020. The trend is set to continue: after Superstorm Sandy engulfed New York City transit, Ayyub helped study similar risks in Washington, D.C and Shanghai. His models showed widespread flooding that could swamp D.C. metro stations and in severe cases even reach “the backyard of the White House.”

The future of U.S. infrastructure

Mukherjee is optimistic about the use of new technology to solve some of these issues, though adoption has been slow. Drones can provide human inspectors with up-close views of areas they can’t reach themselves and reduce chance of human error; a drone on an unrelated project captured footage of the Mississippi bridge crack two years before its discovery.

Ayyub has also worked with North American freight railroads to find weak links using computer modeling, combing through thousands of stations to “identify exactly which point if it fails will have the biggest impact,” he says. Why not do the same with our power grid and waterways?

One piece of good news: in 2021, Congress passed the Bipartisan Infrastructure Law, which provides $1.2 trillion over five years for the ailing systems that help American society run, the largest federal investment in US history. It was a major victory. “Every president for the last eight presidents said we should spend a lot of money—like a trillion dollars—on infrastructure, and none of them delivered,” Lehman says.

Unless it is renewed regularly, though, this funding will barely stop the bleeding. And meanwhile, across the country, families like Kirchhoff’s (who after a difficult year were able to rebuild both the destroyed houses) struggle to recover from a relentless march of disasters, many of them preventable. It’s time for the US to learn the lessons drawn from of a century of neglect, Lehman argues, and begin maintaining the systems that makes so much of American life possible while they’re still in working condition.

“If you have a leak in your roof, you go up there, find it, replace the shingles, put on a little tar” she says. “If you let it go, it’s not going to be a little fix: it’s going to be a replacement.”

The source for this hardhatNEWS article is National Geographic

Comments