Corps of Engineers
KANSAS CITY, Mo. – The Kansas City District, U.S. Army Corps of Engineers, in partnership with the Kansas Water Office, is pleased to announce the start of the first demonstration period for the innovative Water Injection Dredging project at Tuttle Creek Lake.
The demonstration will take place from September 17 to 27 providing a real-world assessment of Water Injection Dredging's effectiveness for sediment management within inland reservoirs. This pioneering project aims to evaluate Water Injection Dredging (WID) and downstream discharge of sediment as a potential alternative to traditional mechanical dredging with offsite sediment disposal. WID uses a controlled injection of water, under pressure, to resuspend sediment from the reservoir bed and create a density current, allowing it to be carried downstream by gravity and the natural current.
"We are excited to launch this first demonstration period for Water Injection Dredging at Tuttle Creek Lake," said Laura Totten, project manager for the Tuttle Creek Reservoir Water Injection Dredging Demonstration Project at the Kansas City District. "This project represents a significant step forward in exploring sustainable dredging techniques to maintain water storage capacity and evaluate the associated environmental effects.”
Tuttle Creek Lake is the largest reservoir in the Kansas River Basin. Over 40% of the population of Kansas, including the urban areas of Topeka, Kansas City, Manhattan and Lawrence, depend on the flood control and water supply benefits of Tuttle Creek Lake, and many more utilize the recreational and environmental benefits.
Since dam closure in 1962, 438 million cubic yards of sediment have accumulated at Tuttle Creek Lake. Sediment deposition has shrunk the surface area of the reservoir, which has buried boat ramps, cut off habitat in coves, led to the abandonment of water intakes and caused numerous other harmful effects. Without intentional action, the benefits of this resource will continue to diminish. Estimates indicate that by 2049, the multi-purpose pool will be 75% full of sediment, leaving only 25% of the original storage capacity, and in 2074, only 7% of the original storage capacity will remain