CSO Abatement On The Lakes

March 25, 2010

About the author: Daniel Lakovic is assistant to the president for seepex, Inc. Lakovic can be reached at 937.864.7150 or by e-mail at [email protected].

Top-of-the-line WWTP ensures clean water and healthy environment for Toledo citizens

Related search terms from www.waterinfolink.com: Sludge Clarification , Pumps , Clarifiers , Treatment

Combined system overflows (CSOs) put a significant toll on the Great Lakes, especially considering all the cities that discharge into them: Milwaukee, Chicago, Toledo, Detroit, Cleveland, Buffalo, Toronto and Montréal. These same cities—totaling tens of millions of people—use the lakes as a source for drinking water. The Great Lakes contain 22% of the world’s freshwater and are an integral part of the agricultural economy in an area with a fishing industry worth more than $4 billion per year.

Massive rainwater surges have plagued the Toledo, Ohio, Bay View Wastewater Treatment Plant (WWTP) for years. Large rainstorms would overload the plant’s treatment capacity and bypass the facility into the local Maumee River, which eventually flows into Lake Erie. The city needed a facility that could handle rainwater surges exceeding 200 million gal per day (mgd).

Treatment in Toledo

In response, water treatment equipment provider Infilco Degremont built one of the first CSO abatement plants in the Great Lakes area. The new wastewater treatment facility can handle excess rainwater (an additional 200 mgd) during extreme conditions. The new facility incorporated an innovative system using high-rate solids contact clarifiers and progressive cavity pumps. The installed facility is the largest high-rate CSO treatment plant in North America.

The system has several distinct zones. Screened wastewater flows by gravity into a rapid mix zone where coagulants are added. This mix flows into a reactor in which progressive cavity pumps drive polymer feed systems that supply the reactor and/or recycled sludge lines with polymer to assist in the flocculation process. The piston flocculation zone provides a gentle mixing condition that enhances flocculation and densification. Flocculation coagulates the solids within the sludge, which will eventually be formed into a combustible fuel.

Oil, grease or other floatable materials are removed through scum removal systems that skim the top layers. The clarification/thickening zone continues to separate fluids from solids, which settle into a sludge at the bottom of the tank. Excess sludge is pumped for further processing, and the clarified effluent is disinfected and discharged into the Maumee River.

The facility provides the unique ability to treat both primary and CSO wastewater. To incorporate this operation flexibility, an operational guideline was created for the Bay View WWTP. Based on the incoming flow and status of the equalization basin volume, multiple operation modes are available. The excess flows can be directed to the high-rate clarifiers (HRCs), and effluent from the clarifiers can then be sent to the activated sludge system.

During high flow events, HRC effluent can be directed to the equalization basin. When the basin reaches design capacity (25 million gal), the flow is then directed to the dedicated wet-weather disinfection system and blended with the plant effluent from the dry-weather facilities before being discharged into the Maumee River.

The sludge clarification and thickening technology not only saves the city money, but also has greatly improved the environmental impact. Through the sludge thickening process, which recycles the waste particles into optimum solids, the facility has reduced fossil fuel consumption.

Pump Selection

Progressive cavity (PC) pumps are critical to the efficient, compact operation of the clarifiers. Sludge circulation within the system will cause damage to the long molecular chains of the flocculant, which will decrease efficiency. This, in turn, would require a larger system that would fill significantly more area. As a result, PC pumps are preferred over other pump types like lobe, peristaltic or plunger designs, which generate more shear.

The geometry of the chosen PC pump has the lowest shear rate of any PC pump geometry. The long pitch length of the stator results in less circumferential movement inside the pump, which lowers internal velocities and slip, the main elements of shear in a pump.

Fifty-five sludge-handling PC pumps are at the facility. The new site expanded the plant’s capacity by 232 mgd in a 43,500-sq-ft area (equal to a little more than an acre).

Plant for the Future

This top-of-the-line WWTP ensures clean water and a healthy environment for Toledo citizens for many generations.

“Since the startup of the wet-weather treatment facility in October 2006, we have had zero plant bypasses,” said Keith Helton of Toledo’s Division of Water Reclamation.

Major cities throughout the U.S. are operating outdated wastewater treatment systems. The technology for improvement exists, and implementation is necessary to ensure quality of life for generations.

Consumers can make a difference by supporting initiatives to protect and improve the nation’s aging clean water infrastructure. Citizens must learn how to dispose of household wastes properly so that only human waste and water enter the sewer system.

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About the Author

Daniel Lakovic

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