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IMPROVING WaterwaysFrom Chicago to the Gulf of Mexico

Phosphorus Recovery System at Stickney Water Reclamation Plant
Project Name
Metropolitan Water Reclamation District of Greater Chicago
Client
Cicero, Illinois
Location

World’s Largest Nutrient Recovery Facility Produces Valuable, Environmentally Friendly Fertilizer

The largest ocean hypoxic area, or dead zone, currently affecting the United States occurs in the northern Gulf of Mexico, adjacent to the mouth of the Mississippi River.

The dead zone, roughly the size of Connecticut, forms along the Louisiana and Texas coastlines each summer. It’s caused by agricultural runoff that is loaded with nitrogen and phosphorus, as well as a number of other sources, such as urban wastewater treatment facilities.

Phosphorus washes into the Mississippi River and eventually into the Gulf. Excess phosphorus in waterways can cause algae to grow and bloom, eating up oxygen and creating toxic conditions that threaten aquatic life in lakes, rivers and even the ocean.

The Metropolitan Water Reclamation District of Greater Chicago has taken a lead in dealing with this problem by transitioning its Stickney Water Reclamation Plant (WRP), the largest wastewater treatment facility of its kind in the world, into a water resource recovery facility.

Black & Veatch designed and built the world’s largest nutrient recovery facility at the Stickney WRP. The plant is providing an environmentally progressive solution to support the larger goal of reducing Gulf hypoxia.

“We used Black & Veatch’s expertise in phosphorus treatment, as well as process modeling, to optimize the sizing of the phosphorus recovery facility and achieve our goal for efficiency.”

Glenn Rohloff​, Supervising Civil Engineer, Metropolitan Water Reclamation District of Greater Chicago

 

Phosphorus Recovery System at Stickney Water Reclamation Plant

Innovation in Nutrient Recovery

The recovery facility is reducing nutrient loads to the Chicago Sanitary and Ship Canal, Des Plaines River, Illinois River and downstream in the Mississippi River to help address the problem in the Gulf. It also enables the recovery of phosphorus and nitrogen waste streams, which are converted into a new generation of slow-release fertilizers.

Selling the finished product as a commercial fertilizer helps close the nutrient loop in another way. When it’s placed on agricultural fields, excess phosphorus not taken up by plants does not immediately run off into adjacent waterways when it rains, as is the case with many commercial fertilizers.

“Black & Veatch partnered with us to do the design and construction of this innovative phosphorus recovery facility, and we’re really pleased to be part of the collaboration."

Mariyana Spyropoulos, President of the Board of Commissioners, Metropolitan Water Reclamation District of Greater Chicago

The Metropolitan Water Reclamation District of Greater Chicago installed three Ostara Pearl® 10000 reactors in the Stickney nutrient recovery facility. The Pearl phosphorus recovery system can recover more than 85 percent of the phosphorus and up to 15 percent of the nitrogen from wastewater streams.

The facility has a production capacity of up to 10,000 tons of a high-value, continuous-release fertilizer.

Phosphorus Recovery System at Stickney Water Reclamation PlantPhosphorus Recovery System at Stickney Water Reclamation PlantPhosphorus Recovery System at Stickney Water Reclamation PlantPhosphorus Recovery System at Stickney Water Reclamation PlantPhosphorus Recovery System at Stickney Water Reclamation PlantPhosphorus Recovery System at Stickney Water Reclamation PlantPhosphorus Recovery System at Stickney Water Reclamation Plant

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