Researchers fight pollution that causes Chicago summertime beach closings
Krishna Reddy: “There are lots of studies that include monitoring, but not much is being done about preventing the problem,” he said of the polluted run-off that causes beach closings.
Photo: Kathryn Marchetti
It is an annual rite of summer in Chicago: heavy or persistent rain causes a water backup from runoff and sewage that pollutes Lake Michigan, forcing officials to close beaches as a health precaution.
Chicago is exceptionally prone to the problem, but the U.S. Environmental Protection Agency knows it is exacerbated by runoff from the cities and communities of all sizes lining the shores of the Great Lakes.
In response, they asked engineers to propose ways to fix to problem.
The solution? A dose of prevention, said Krishna Reddy, professor of civil and environmental engineering.
“There are lots of studies that include monitoring, but not much is being done about preventing the problem,” Reddy said.
“We know pollution is caused by various sources, a major one being surface water runoff.
“Our idea is to design a filter that the runoff passes through. Whatever comes out will be generally clean.”
Reddy and co-investigator Krishna Pagilla, professor of civil, architectural and environmental engineering at the Illinois Institute of Technology, received a two-year, $239,000 grant from the EPA to examine the feasibility of such an approach.
Their focus is the polluted water that runs off hard surfaces such as roads and parking lots near city beaches. A hard rain can wash away a witch’s brew of contaminants that often flow directly into the lake.
“It’s generally E. coli bacteria and nutrients such as nitrates, phosphorous, plus heavy metals such as mercury, zinc, copper, nickel and cadmium,” said Preethi Chinchoud, a engineering doctoral student working with Reddy.
“The nutrients come from landscape runoff. A lot of organic contaminants come from nearby gas stations or parking lots,” she said.
Other pollutants include salts, nanoparticles, leached plastic stabilizers and other chemicals that are often not monitored, but pose potential risks to public health and lake ecosystems.
Reddy and Pagilla will test various filter media at UIC and IIT labs to determine which pull out the contaminants that commonly wash into the Great Lakes from paved surfaces.
The goal is to come up with various pre-beach catch systems using effective filter material that is relatively cheap and easy to maintain. After lab tests, the researchers will work with the Chicago Park District to build an actual test site near a Chicago public beach.
“Ultimately our tests will result in a filter system design that’s hydraulically efficient with a lot of water flowing through it, but at the same time can retain a lot of types of contaminants,” Reddy said.
If the system proves effective, it could be used along threatened lakes and waterways around the country, Reddy said.
“We see large-scale application.”