Software Saves Grand Rapids $1 Billion
Source: Municipal Sewer & Water // Published March 2020
Data from flowmeters helped city officials verify a hunch that sewer issues weren’t as bad as models indicated.
By using sensors to collect real-time data about the performance of sanitary sewers and a specialized software program to analyze the intel, the city of Grand Rapids, Michigan, avoided an estimated $1 billion worth of system upgrades that reports indicated would be needed to ensure compliance with state mandates.
The data was collected by a network of 90 flowmeters and 10 rain gauges deployed around the city in 2013 and analyzed by a BLU-X Intelligent Urban Watershed platform from Xylem Digital Solutions. The upshot? The infiltration and inflow problems could instead be solved for between $30 million to $50 million, says Nicole Pasch, the acting assistant environmental services manager for the city’s Environmental Services Department.
“The real-time sensors turned on the lights,” Pasch says. “We used the technology to clarify and prove things. It was risky to spend $2 million to deploy flowmeters out there, but if we hadn’t, it would’ve affected the affordability of our water and sewer services in a very negative way.”
The city’s journey to using the sensors and the analytical software actually started back in 1991. That’s when Grand Rapids embarked on a 27-year-long, roughly $400 million endeavor to convert its 100-year-old combined sewers into separate stormwater and sanitary sewers. Overall, the city installed about 119 miles of new storm and sanitary sewer lines in a 4.7-square-mile area and separated 99.5% of the old combined sewer network.
Sewer overflows during heavy rains had plagued the city for decades. During 1969, for instance, 12.6 billion gallons of untreated sewage flowed into the Grand River, which empties into Lake Michigan some 40 miles downstream. And in 2013, record flooding sent 435 million gallons of untreated sewage into the river, according to news reports.
In fact, the situation was bad enough that in 1988, state authorities imposed a ban on real estate development until the sewer problems were fixed. The state also ordered the city to fix the sewer overflow problem by 2019.
Surprising news
After the sewer-separation project concluded, the city was required to prove it could comply with a mandate from the Michigan Department of Environmental Quality to eliminate overflows in the new sanitary sewers. The only exception to the mandate was a rainstorm that would exceed a 24-hour, 25-year storm, about the equivalent of almost 4 inches of rain in an hour, Pasch says.
“Even though we already spent $400 million to separate the sewers and no longer have any sewage overflow, we still have to go through the regulatory requirement to show we won’t have any sanitary system overflows,” Pasch explains.
When the hydraulic modeling test was completed, the results took officials by surprise. The data indicated that the city still needed to remove 175 million gallons of I&I from the system annually. At a cost of $5 to $7 per gallon for such projects, the total estimated price tag came out to around $1 billion, Pasch says.
“After reviewing the results, it was surprising that the hydraulic model indicated there were more areas that still needed work, including some areas we had already addressed,” she says. “The model predicted much bigger issues with certification than we ever thought possible.”
Following a hunch
At that point, officials faced a choice: Accept the results of the hydraulic model or follow a gut hunch that the modeling was somehow flawed. They elected to go with the latter, and to verify their hunch, the city hired EmNet (now owned by Xylem) to deploy the flow sensors in 2013.
“The more we worked with EmNet, the more we realized that they’re very experienced in modeling and collecting system intelligence,” Pasch says. “So we hired them to develop a more realistic model.”
The centerpiece of EmNet’s efforts was the BLU-X platform, which collects, organizes, analyzes and displays the data via dashboards. That provides municipal officials with visual cues to understand and regulate the operation of their sewer systems. Once a baseline model was established, this “smart” system continually compares it against ongoing sensor data, which continuously fine-tunes the model with each rainfall.
“The model is built on a software platform that is basically a series of mathematical relationships that represent the entire sewer system,” says Tim Braun, vice president and enterprise architect at Xylem Digital Solutions. “It models how all the pipes intersect, their slopes and diameters — really anything that impacts how water flows through the system.
“BLU-X helps you understand the physical locations of the problem and characterizes the behavior of a sewer system,” he adds. “This helps you understand the location of the biggest pain points, and knowing that helps you make far more strategic decisions.”
Not as bad as expected
The flowmeter data analytics provided by the BLU-X platform narrowed the problem areas suggested by the hydraulic study to only six sites. And even those six sites struck city officials as odd because during the major flooding that afflicted much of the Midwest in 2016, none occurred in the areas that the data predicted would suffer most, Pasch says.
Photo by Kevin Maillefer on Unsplash